Upload
others
View
1
Download
0
Embed Size (px)
Citation preview
1
Scientific report
LABEX EMC3
Rapport couvrant la période du 01/01/2011 au 31 /12/2014
Date de notification de la convention attributive d’aide : 11/10/2012
Titre complet du projet Energy materials and clean combustion center
Mots clés
Matériaux pour la thermoélectricité ; matériaux pour l’émission lumineuse ; matériaux pour l’énergie nucléaire ; combustion propre ; turbulence et viscoélasticité ; convertisseurs analytiques ; écoulements réactifs ; simulation numérique avancée ; instrumentation scientifique ; récupération et conversion de l’énergie par modules thermoélectriques haute performance ; synthèses de nouveaux matériaux
Etablissement coordinateur CNRS
Date de début du projet
Date de fin du projet
18 août 2011
12 décembre 2019
Site web du projet http://www.labex-emc3.fr
Responsable scientifique et technique du projet, rédacteur du présent rapport Nom, Prénom Maignan Antoine
Téléphone 02 31 45 26 34
Courriel [email protected]
Date de rédaction 3 avril 2014
Le rapport d’étape doit être rédigé en anglais (une version française pourra être jointe).
2
Evolution des unités de recherche partenaires du projet : Fournir la liste des nouvelles unités de recherche et celles ayant quitté le projet, indiquer la motivation de l’entrée ou du retrait. Dans le cas des partenaires publics, seront mentionnés le code (UMR, UMS, UPR, EA...) et le numéro de l’unité, puis son intitulé. Aucune évolution des partenaires à noter depuis le lancement du Labex EMC³. Seules les directions
des unités de recherche ont changé comme présentées dans le tableau ci‐dessous :
Laboratoire Direction au 01/01/2010 Changement
UMR 6252 CIMAP, Centre de
Recherche sur les Ions, les Matériaux
et la Photonique
Serge BOUFFARD Amine CASSIMI,
au 01/01/2014
UMR 6614 CORIA, Complexe de
Recherche Interprofessionnel en
Aérothermochimie
Mourad BOUKHALFA
UMR 6508 CRISMAT, laboratoire de
Cristallographie et Sciences des
Matériaux
Antoine MAIGNAN
UMR 6507 LCMT, Laboratoire de
Chimie Moléculaire et Thioorganique
Annie‐Claude GAUMONT
UMR 6506 LCS, Laboratoire Catalyse
et Spectrochimie
Jean‐Pierre GILSON Frédéric THIBAULT‐STARZYK
Au 01/01/12
UMR 6294 LOMC, Laboratoire Ondes
et Milieux Complexes
Innocent MUTABAZI
UMR 6634 GPM, Groupe de Physique
de Matériaux
Philippe PAREIGE
RESUME PUBLIC/ SUMMARY
* Résumé du projet intégrant son avancement et faits marquants depuis le début. Cette partie sera actualisée chaque année. Maximum 20 lignes. The LABEX EMC³ encourages the collaborations between specialists in the study of energy materials
and clean combustion, in order to bring their research at the highest international level. To do this,
the LABEX project works as an annual project hotel that aimed at financing high level and risky
research projects that go from fundamental to applied research. Two types of project are proposed:
short projects typically of fourteen‐month long to support risky and innovative ideas and four‐year
projects, just long enough to achieve a PhD thesis on high level field already mastered.
The first call for proposals was established in late 2011 to launch project the following year. From
2011 to 2014, four calls for proposals were launched and 30 projects were selected for a total
amount of €8.5 million budget over a total amount of €13 M.
Seven short projects are currently closed. They lasted between 14 to 18 months. The first wave of
long projects is planned to close in 2016. Project monitoring was implemented early in the LABEX
and it is undertaken by the same experts belonging to the Scientific Council, throughout the project
life, especially at mid‐term and for the final reports.
3
All in all it is 35 PhD students and 28 young researchers who have been hired via EMC³.
Since 2013, the LABEX EMC³ has got a medium for international communication through a website
and a Twitter account. Moreover the project manager is routinely present at local and national
business shows to represent LABEX research and researchers. He (she) also takes part in local
clusters meetings and scientific days.
With the EquipEX GENESIS, EMC³ is playing a very important role in the research organization in the
context of the Upper and Lower Normandy reunification. The EMC³ directors have been involved in
the Normand’I‐SITE candidature.
4
1.ETAT D’AVANCEMENT DU PROJET / PROGRESS OF THE PROJECT
Décrire ici l’état d’avancement du projet par rapport au contenu de la convention Labex sur ses différents volets : gouvernance/organisation, recherche, formation, valorisation, rayonnement. Dans chacun de ces volets, il conviendra de décrire ce qui a été réalisé, ce qui a dû être infléchi ou modifié, ce qui n’a pas pu être réalisé et quelles sont les perspectives pour les deux années à venir et au-delà, jusqu’à la fin du projet. Les causes des modifications ou non réalisations devront être explicitées. Le cas échéant, les principales difficultés rencontrées par le projet devront également être rapportées. Maximum 3 pages.
1.1 Gouvernance, (lancement, organisation et gouvernance du projet, pilotage et dispositifs de suivi, mode d’implication des directeurs d’unités de recherche concernés)/
Governance (initiation, organization and project governance, management and monitoring systems, way of involvement of concerned research units’ directors) ● Initiation The EMC³ project (based on a projects hotel working by annual calls) was launched following the first round of the IA program in 2010. For the first year, a budget of 1.3 M€ was allocated through a pre‐convention in September 5, 2011. It allowed initiating a procedure for purchasing analysis and measurement equipment required for operating some projects as descripted in the initial report. A complete description of equipment, its budget as well as its financial leverage is given in the paragraph 2C. In order to fairly select projects, a board named Scientific Council and composed of 7 external and 7 internal representatives was established on November 30, 2011 on suggestion of the 7 laboratories’ directors and endorsed by the Steering Committee, representing all partners of the Consortium. It has selected 8 projects for the AAP “Appel à Projet” 2011 that day. In the tables below are presented past and present members of the Scientific Council:
Current Internal Scientific Council Members Laboratory CAMY Patrice CIMAP
FERNANDEZ Christian LCS
PRELLIER Wilfrid CRISMAT
SCHNEIDER Ioan LOMC
VERVISCH Pierre CORIA
WITULSKI Bernhard LCMT
Former Internal Scientific Council Members Laboratory CASSIMI Amine (11/30/2011 – 11/13/2013) CIMAP
Current External Scientific Council Members University
SAULNIER Jean‐Bernard (president) ENSMA / Université de Poitiers
BRECHET Yves Grenoble INP
DRILLON Marc ICPMS / Université de Strasbourg
GOUDEAU Philippe ENSMA / Université de Poitiers
HADZIIOANNOU Georges ENSCBP / Bordeaux INP
HENRIQUES Carlos Universidade Técnica de Lisboa
MAURY Francis ENSIACET / INP Toulouse
TAYLOR Alexander Imperial College London
Former External Scientific Council Members University
BOULANGER Benoît (11/30/2011 – 11/13/2013) Institut Néel / Université Joseph Fourier
MARTENS Johan (11/30/2011 – 06/24/2014) Katholieke Universiteit Leuven
5
The final Convention (No. ANR ANR‐10‐LABX‐09‐01) was not signed until 11 October 2012, and only part of the AAP 2011 projects could be launched on January 1, 2012 (3 short‐term projects). The 5 remaining (long‐term) projects have started at the beginning of October 2012. For the following call for proposals (AAP 2012 to AAP 2014) a Scientific Day was created to stimulate the emergence of collaborative projects between the 3 sites (Caen, Rouen, Le Havre) and the 7 laboratories. The 2015 event was organised at Rouen university, Madrillet campus on March, 19th. Funded projects are presented in the paragraph 1.2. For the LABEX EMC³, a budget of €13 M was allocated as shown in the table below:
LABEX EMC3 € 13 000 000
Research € 11 248 600
- projects € 9 926 490
- equipment € 1 322 110
Formation € 680 000
- Internship grants € 240 000
- Master programs € 90 000
- School on Materials Science € 100 000
- School on Combustion € 100 000
- Missions expenses € 70 000
- Communication € 80 000
Research Transfer €231 200
- Communication € 80 000
- 50% Project Manager Income € 151 200
Governance € 340 200
- Communication € 80 000
- Mission expenses € 40 000
- 50% Project Manager Income € 151 200
- Other expenses € 690 000
Management fees (4%) € 500 000
● Organization and project governance The governance was implemented as described in the LABEX EMC³ agreement. The structure is held by the CNRS (Delegation Normandy) and, supervised on the scientific roadmap by the “Institut National de Chimie” (INC). The LABEX direction (1 Director, 1 co‐director) and the Executive Committee (CoDir, composed of the seven participating research unit directors) are assisted by a Scientific Council (CS) and a Steering Committee (CoPil). The Executive Committee vested with the powers of supervision and decision is the operating‐oriented corps. The Steering Committee, composed of 7 members representing the 3 Universities, the 2 Engineering Schools, CNRS and CEA, makes the necessary arbitrations for the conduct of the LABEX project and focuses on strategy. The Scientific Committee composed of eminent researchers within all disciplines in the thematic scope of the LABEX EMC³ (7 internal and 7 external members) selects the projects on the base of holders report and presentations, and on referee’s reports. At least two members (one internal, one external) of the Scientific Council are chosen by the Executive Committee to review the proposals. The Scientific Council monitors also current projects and provides recommendations. Finally, it guarantees the scientific roadmap in accordance with international standards.
6
So far, the Scientific Council has selected 30 collaborative projects (16 long‐term and 14 short‐term projects) along 4 project calls (AAP). Seat changes occurred in October 2013 and involved three bodies: • CoDir: Amine Cassimi new CIMAP laboratory director replaced Serge Bouffard, previous director • CS: Benoît Boulanger (Grenoble) left ; Marc Drillon (Strasbourg) replaced him • CS: Amine Cassimi becoming new CIMAP director was replaced by Patrice Camy as a scientific representative of CIMAP in the Scientific Council A new change occurred in October 2014 as so: • CS: Johan Martens (Leuven) left ; Carlos Henriques (Lisbon) replaced him A project manager is employed by the CNRS under a limited‐term contract of one year with a possibility of renew. His/her role is to ensure the proper functioning of governance, to monitor financials and accountings and to follow the development of research projects including the detection of potential patent and eventually partnership with industries. A table presenting name, education and work period of the different project managers of the LABEX EMC³ is given below:
NAME Surname Education Contract type Mission time Current position
MARIAU Amélie Master degree in European Project Management
Internship April to September 2012
Project manager on Interreg IV project
GILLOT Rachel Engineer in Materials Science with industry experience as project manager
Short‐term contract
September 2012 to May 2013
Industrialization and project manager at PIERCAN
CHAMERAUD Arthur
Double‐diploma in Chemical Engineering and Management of European projects
Internship then short‐term contract
May to December 2013
entrepreneur in computer business
DELCEY Nicolas PhD in Chemistry and Master degree in Innovative Project Management
Short‐term contract
January 2014 to present
● Management and monitoring systems As presented earlier, the LABEX EMC³ governance is composed of three committees with specific role. All committee meetings are presented in the following table:
Committee Date Place Object
2011
Steering Committee September 2011 Caen General presentation of the LABEX EMC³project to the higher education presidents
Executive Committee
October 2011 Caen Preparation of the call for proposals (AAP 2011)
Executive Committee
November 2011 Rouen Examination of the proposals (AAP 2011)
Scientific Council November 2011 Caen Proposals defense and selection
7
2012
Steering Committee January 2012 Rouen Validation of the selected projects, past year budget and new year actions
Scientific Days 2 dates in May 2012
Rouen/Caen Science project presentations and Emergence of new collaborative proposals
Executive Committee
June 2012 Examination of the proposals (AAP 2012)
Scientific Councils June/October 2012 Caen/Rouen Proposals Defense and selection on a 2 sessions committee
Executive Committee
October 2012 Bourg‐Achard
Budget situation and planning
Steering Committee December 2012 Caen Validation of the selected projects, past year budget and next year actions
2013
Scientific Day February 2013 Caen
Science presentations of representatives of the CEA (Nuclear National Agency) and the IFP (Petroleum National Institute) and Emergence of new collaborative proposals
Executive Committee
February 2013 Caen Preparation of the call for proposals (AAP 2013)
Executive Committee
May 2013 Caen Examination of the proposals (AAP 2013)
Scientific Councils June/October 2013 Le Havre/Caen
Proposals Defense and selection on a 2 sessions committee
Executive Committee
November 2013 Caen Budget situation and planning
Steering Committee November 2013 Caen Validation of the selected projects, past year budget and next year actions
2014
Scientific Day February 2014 Le Havre Presentations of 4 different LABEX projects and Emergence of new collaborative proposals
Executive Committee
March 2014 Caen Preparation of the call for proposals (AAP 2014)
Executive Committee
June 2014 Caen Examination of the proposals (AAP 2014)
Scientific Councils June/October 2014 Caen/Rouen Proposals Defense and selection on a 2 sessions committee
Executive Committee
November 2014 Caen Budget situation and planning
Steering Committee December 2014 Rouen Validation of the selected projects, past year budget and next year actions
With the experience acquired during the first call for proposals in 2011, the LABEX EMC³ adopted an improved procedure in 2012 with two sessions of the Scientific Council for a better selection of the proposals base on A‐C scale score : “A” for selected issues, “B” for issues that need to be improved and “C” for refused issues. The research projects are monitored by progress reports at 12 and 24 months for long‐term projects (duration = 48 months) and progress reports at 6 months for shorter projects (= 14 months). In 2012, the monitoring was improved with the establishment of a discussion at mid‐term for short projects and a hearing at 18 months for long‐term projects during Scientific Council meetings. This scheme has been well received by both the CS members and project holders, thus it is renewed every year since.
8
To summarize the monitoring procedure: • Short‐term projects:
i. a 6 months progress report, discussed during CS meeting, ii. a report by the end of the project, iii. a hearing after the final report in front of the CS
• Long‐term projects: i. a 12 months progress report, discussed during the following hearing ii. a hearing at 18 months presented to the CS iii. a 24 months progress report, discussed during CS meeting iv. a hearing after the final report in front of the CS (not yet happened) The table below presents the effective monitoring of the funded projects.
Scientific Council Meetings
November 2011 June 2012 October 2012 June 2013 October 2013 June 2014 October 2014
final selection AAP2011 projects
first hearing AAP2012 projects
final selection AAP2012 projects
first hearing AAP2013 projects
final selection AAP2013 projects
first hearing AAP2014 projects
final selection AAP2014 projects
18 months hearing for AAP2011 long‐term projects
closing hearing for AAP 2011 short‐term projects
18 months hearing for AAP2012 long‐term projects
closing hearing for AAP 2012 short‐term projectsPOSTPONED
6 months progress report for AAP2011 short‐term projects
6 months progress report for AAP2012 short‐term projects
6 months progress report for AAP2013 short‐term projects
24 months progress report for AAP2011 long‐term projects
Concerning the management of the scientific sub‐projects, projects holders are invited to organize as necessary meetings between teams to facilitate exchanges and when it is effective, to share meetings between the different sites. It is also requested regular participation of the LABEX project manager at these meetings to discuss financial and administrative matters and support CS's recommendations on management and on intellectual property.
● Way of involvement of concerned research units’ directors Approximately 3 meetings of the Executive Committee take place every year during which the 7 research units’ directors discuss and debate financial, management, and research matters. Any additional meeting of this Committee can be put in place on request of any of the research units’ directors.
9
Laboratory directors are also present during Scientific Days of the LABEX EMC³ to galvanize research teams. They play an important role on the communication inside the LABEX to explain decisions and rules.
1.2 Recherche/Research Every year since 2012, a scientific day is organized to launch the call for proposals and to promote the emergence of new cross‐functional projects involving inter‐laboratory collaboration. The 2012 Scientific Day was dedicated to the presentation of proposals. The search for new partnerships within the 7 laboratory units was largely encouraged. The 2013 Scientific Day received two eminent speakers to talk about the future of Energy Materials and Clean Combustion, in the person of Yves Brechet, High Commissioner for Atomic Energy and Xavier Montage, Scientific director of the French Institute of Petroleum. The 2014 Scientific Day launched the call for inter‐LABEX projects and 4 representatives of other LABEX were present to expose their LABEX organization and sciences. The 2015 Scientific Day (March, 19th) was dedicated to tech‐transfer awareness and intellectual properties within the LABEX. At this time, 4 calls for proposals have been organized and they permitted to fund 16 long‐term projects and 14 short‐term projects as summarized in the tables below: The three research axes of the LABEX EMC³ are the followings:
1. Energy Materials
▪ Thermoelectricity
▪ Light emission
▪ Nuclear energy
2. Clean Combustion
▪ Fuels and mixing phenomenon
▪ Reactive flows
▪ Advanced numerical simulation
▪ Catalytic converters
3. Transverse Research
▪ Instrumentation and diasgnostics
▪ Thermoelectric modules
▪ New hybrid materials and functional molecules
The list of projects is shown in the table:
Call Project name Participating laboratories LABEX
EMC³ axis Budget
AAP 2011
Long term
ASAP: Atom probe tomography combined with ion, photon and electron spectroscopies.
GPM/CORIA/CIMAP 3 500 000 €
COLIBRI: organometallic catalysers and ionic liquid for natural resources valorisation
LCMT/CRISMAT/GPM/LCS
1 531 000 €
ITEM: Innovative ThermoElectric Materials
CRISMAT/GPM/LCMT 1 554 000 €
MESOTHERM: meso‐combustion and thermoelectricity
CORIA/CRISMAT 3 349 000 €
10
TUVECO: turbulence and viscoelasticity in complex flows
LOMC/CORIA 2 540 000 €
Short‐term
Matiss: implementation of high resolution characterization techniques on petawatt laser chain material
CIMAP/GPM 1 200 000 €
Opti Gp Re: simulation/optimisation integrative methods for low and high Reynolds number reactive flows analysis
CORIA/LOMC 3 187 000 €
Solair: femtosecond blue laser sources and characterisation of transparent objects
CIMAP/CORIA 3 200 000 €
AAP 2012
Long
term
3D: development of 3D optical technics for complex flows
CORIA/LOMC 3 529 000 €
HELIOS: structured electro‐optic inorganic‐organic hybrids
CRISMAT/LCMT/CIMAP 1 448 000 €
Short term
Dyther: Stratified Rotational Flow and impact on thermic transfers
CORIA/LOMC 2 160 000 €
Luz: white light emission from rare‐earth doped ZnO
CIMAP/GPM/CRISMAT 1 150 000 €
Cahaps: in line absorption characterization of aromatic polycyclic hydrocarbons on soot
CORIA/CIMAP 2 174 000 €
Naninox: influence of nanostructuration on irradiated austenitic stainless steels properties and microstructure
GPM/CRISMAT/CIMAP 1 183 000 €
AAP 2013
Long term
AFLTEPMAG: transport and magnetism of thermoelectric anisotropic compounds lacking Fermi surface and related
CRISMAT/GPM 1 250 000 €
PICOLIBS: elementary composition analysis via picosecond Laser‐induced breakdown spectroscopy
CORIA/LOMC/CIMAP 3 471 000 €
DRUID: diagnostics of catalysis reaction mechanisms implied in decontamination
LCS/CORIA 3 453 000 €
Short term
Tepri: gas emission in irradiated polymers : study of energy transfers to irradiation defects
CIMAP/LCMT 1 137 000 €
Cmain: synthesis via spark‐plasma‐sintering of monocrystalline austenitic stainless steels and mechanical properties characterization
GPM/CRISMAT 1 150 000 €
Nanoholo: metrology of nanometre‐scale objects by numeric holography and electron tomography
GPM/CORIA/CRISMAT 3 135 000 €
Neomap: To new nanostructured materials for permanent magnets GPM/CRISMAT 3 70 000 €
AAP 2014
Long term
AQURAT: Improved chemical Quantification and Performance Analysis in Tomographic Atom Probe
GPM/CIMAP 3 188 200 €
BIOCAR: second generation biofuel from refinery to propulsion LCS/CORIA 2 437 000€
COCC: Studies of new combustion modes encountered in CO2 capture methods,CO2 dilution and O2 enrichment
CORIA 2 95 080 €
11
CONPOTHE: New polar chalcogenides for thermoelectric conversion CRISMAT/GPM 1 395 360 €
FAST‐MIR: High performance Thulium and Holmium doped crystals for mid‐IR ultrafast lasers
CIMAP/CORIA 3 382 400 €
SPHEUL: SPH & Euler method association for atomisation modeling CORIA/LOMC 2 257 060 €
Short term
Ehma: Electronic Hybrid Materials based on Conducting Polymers Encapsulated in Zeolites (Pencil‐structured Hybrid Materials)
LCMT/LCS 1 137 600 €
Nice: Normandy Initiative for Crystallography using Electrons
CRISMAT/LCS/CIMAP 3 90 060 €
Thermos: Synthesis and characterization of thermoelectric hybrid materials from type MS2 inorganic sheet (M = W, Mo, Ti).
CRISMAT/LCMT/LCS 1 161 200 €
From 2011 to 2014, the funded projects have produced: 54 refereed publications, 2 contributions to monographs, 110 oral communications and 1 software claim.
1.3 Formation/Training The first program put in place aims to retain postgraduate student in LABEX EMC³ laboratories and thus motivate them to undertake a PhD thesis. So, highest ranked postgraduates are granted for a 4 to 6 months internship in the research units as part of their training. An allocation equivalent to 12 months of internship is paid to each member laboratories every year in order to fund 2 (6 months) to 3 (4 months) students depending to their training program. From 2012 to 2014, 32 students were financed by this allocation. Among them, 21 students (68%) chose to stay in the LABEX laboratories to achieve a PhD thesis. With the inability to establish one or more Master program for the labex due to schedule incompatibilities with the tenure of the different training commissions, the Executive Committee decided to support innovative training initiatives from Master formation managers when they meet the science axes of the LABEX EMC³ and strengthen cohesion within the 5 Norman higher education institutions. The first initiative (2014) to be supported is the organization of an exchange program on instrumentation (electronic transmission microscopy and atom probe) in the Master formation MANE (Materials, Nanoscience and Energy), common to Caen and Rouen. This program aimed to reinforce this joint degree between Norman Universities and Engineering Schools as well as to increase the attractiveness of this formation at the national and international level. Following the success of this initiative, the Executive Committee decided to pursue this action in 2015 and beyond. In the submission report, it was planned to organize 4 congresses (2 seminars on Materials & 2 seminars on Combustion field) within the LABEX EMC³ duration. However, due to the complexity of the organization and the redundancy with existing workshops organized by laboratory members, it was acted by the Steering Committee that instead the LABEX will support organization by co‐funding such existing events if their themes matched with the LABEX EMC³ scientific roadmap and if researchers and students (postgraduate and PhD) from several laboratories could participate.
12
The table below presents the 2014 LABEX funded workshops:
Workshop Dates Axis Organization Localisation
Student participation
Zeolites School 19-20 May 1 LCS, Caen 20
ISTROF seminar (Instabilities and Turbulence in Stratified Rotational Flows)
23-26 June 2 LOMC, Le Havre 20
Autumn Atomic probe School
27-31 October 3 GPM, Rouen 24
SUM 64
The Executive Committee has already established a financing plan covering until 2019 the funding of such workshops. This listing is still subject to change and to approval by the Steering Committee.
Year Workshop Organizator
2015
Electronic Crystallography CRISMAT
Theoretical aspects of 2-D oxides CRISMAT
Operando V LCS
ICHAC-11 LCMT
Autumn Atomic Probe school GPM
2016 EUROMECH LOMC
2017 Autumn Atomic Probe school GPM
2018
Autumn Atomic Probe school GPM
International Conference on Thermoelectricity
CRISMAT
Zeolites workshop LCS
1.4 Valorisation/Result exploitation The project manager is responsible for the detection and exploitation of the research results. To and he/she works in partnership with the CARNOT ESP Institute in Rouen (CORIA/GPM), the “CNRT Matériaux” Unit in Caen (CIMAP/CRISMAT/LOMC/LCS/LCMT) and the regional CNRS Partnership and Technology Transfer service to ensure this role. In addition, the LABEX EMC³ policy on tech‐transfer is encouraged by the Scientific Council experts who emphasize any form of result exploitation during hearing and monitoring of projects when is suitable. Moreover a representative of the local CNRS partnership and exploitation service is always present during those meetings to recognize exploitation potential and take contact with researchers. At this time, a copyright for a software program developed in the long‐term project “3D” funded by the LABEX EMC³ has been claimed to the APP (French Agency for the Protection of Programs) in August 2014. Other intellectual properties actions and claims are currently in progress from LABEX research projects. Furthermore, several completed projects of the LABEX have already given some new collaborations with academic and industrial partners.
▪ Projects closed in 2013
13
Two doctoral fellowships by Solvay and SNECMA and the industrialization by Air Liquide of a source code due to the project OPTI GP RE. This project has also succeeded to get a two‐year postdoctoral grant funded by AIRCELLE. The project MATISS has brought a joint supervision thesis (CIMAP, CEA‐Bordeaux) in the program Petawatt Aquitaine Laser (PETAL). The project SOLAIR has led CIMAP laboratory to be part of a share industrial‐academic innovating program called VERTICAL funded by national industrial development agency (BPI‐France) on laser technologies. It has also brought another industrial fellowship funded by Zodiac Aerospace and the participation of CORIA in the current European program HAIC (High Altitude Ice Crystal) managed by Airbus.
▪Projects closed in 2014 The project CAHAPS implying important modifications of the gas aggregation chamber owned by the CIMAP lab has allowed to start a new thesis on hadrontherapy techniques opening the equipment to new research domains. All in all, it is 52 publications that were produced by the LABEX EMC³ projects for a total of 1 963 publications for all laboratories in the same period.
1.5 Rayonnement, actions de promotion du LabEx (précisez les cibles et la part de l’aide des moyens consacrés)/ Visibility, outreach, sharing and promoting actions of the Labex (specify the targets and the corresponding dedicated funding) The financial means dedicated to the promotion of the LABEX EMC³ and its research are described in the paragraph 1.1. The total amount for the communication part represents 240 000 euro. A communication plan written jointly with the CNRS was implemented at the launch of the project. It targets 3 separate audiences: 1) researchers 2) publics institutions 3) industries. This plan resulted in the publication of a website, communication boards (French and English), banners and advertising items (notebooks, pens, business cards) necessary for visibility on exhibitions and trade shows. These actions are in addition to those already undertaken the first year as the purchase of an interactive terminal, a communication element particularly effective to present the LABEX EMC³ on shows such as “Les Rendezvous Carnot”, a famous French R&D exhibition show dedicated to innovation for companies. The website opened in September 2013 showcases the LABEX EMC³. It gathers information about governance, laboratory members, research axes, and formation actions. It shares also job offers for funded projects and news about calls for proposals. Recently, presentations of close projects are made with focus on their science and socio‐economic impacts. The website is intended for our 3 audiences. In addition of this site, the LABEX has got an access on social media with a Twitter account opened in February 2014 in order to engage a wider audience. This media allows diffusing news related to R&D policies and Science advances as well as local events in the field of the LABEX. Besides these media, the LABEX EMC³ intends to acquire a biennial newsletter that will present closed projects, socio‐economic impacts, partnerships and other promoting actions. This newsletter is mainly intended to focus on our research and researchers. Project managers of the LABEX EMC³ have been present to numerous trade shows such as presented below:
14
Shows Dates Places Object
Mov’Eo Days November 19‐20,
2012
Versailles Mobility and
transport
Scientific Day Nucléopolis December 18, 2012 Caen Nuclear industry and
research
Normand’Innov January 31, 2013 Rouen Local innovative
industries
Aero’Nov Connection January 30‐31, 2013 Versailles Aeronautics
Rencontres Université‐
Entreprise RUE 2013
March 27‐28, 2013 Paris Higher education
fair
Rendez‐Vous Carnot October 9‐10, 2013 Lyon National innovative
industries
Scientific Day on
Aeronautical & Spatial
Propulsion INSA
June 5, 2014 Rouen Aeronautics and
space
Scientific Day Carnot ESP July 4, 2014 Rouen Propulsion engine
Scientific Day Carnot MICA September 29, 2014 Strasbourg Energy Materials
Innovation Weeks in
Basse‐Normandie
October 10, 2014 Caen Round‐table event
on holographic
techniques
Ecotechnology Days November 19‐20,
2014
Rouen Energy Materials
Since 2014, the new project manager has involved researchers in business fairs in order to present their particular skills and some of their current projects. This approach gives more credit to usual presentation of the LABEX EMC³ and is well appreciated by industrial contacts. Some contact are still in discussion to start new partnerships. For next events, the LABEX project manager will concentrate his/her action on shows organizing business appointments at national and regional scope.
2/ Impact de la labellisation et du financement associé / Label and associated funding impact Cette partie propose un « focus » sur la « plus-value » effectivement constatée que la labellisation « Laboratoires d’excellence » aura apportée. Celle-ci sera décrite à travers tous les champs du projet (recherche, formation, valorisation, dynamique collective d’entraînement). Il s’agit d’identifier en quoi la labellisation et le financement fait une « différence » par rapport à la situation initiale et de décrire l’ensemble des actions qui n’auraient pas pu être conduites sans cette labellisation.
A) Description des réalisations scientifiques/Scientific achievement description Caractère original ou inédit de la programmation scientifique, principales avancées dans la connaissance scientifique et positionnement de celles-ci dans le contexte scientifique international, nouveaux partenariats scientifiques sur le plan national et international, etc. liés au développement du Labex., rayonnement interdisciplinaire du Labex sur le site, impact du Labex sur la politique internationale du site,… Décrire les appels à projets mis en œuvre : objectifs, modalités et description des projets financés. Maximum 10 pages.
15
● Original character of the scientific program Environment and sustainable development are key issues for our modern‐day societies. The scientific roadmap of the LABEX EMC³, as presented in the chapter 1.2, contributes to improve Norman expertise in two strategic fields: on one hand, consumption reduction of fossil energies and their impact and, on the other hand, improvement of the energy conversion and of the nuclear reliability. In that context, the LABEX has permitted to create synergetic collaborations between the seven laboratories (see chapter D for ecosystem structuration). In accordance with the objectives of the project EMC³, the table below shows the number collaborative projects developed by sub‐domains of the three research axes.
Research field Sub‐domain Nb. of collaborative
projects Implied laboratories
ENERGY MATERIALS
Thermoelectricity 4 CIMAP‐CRISMAT‐GPM‐
LCMT‐ LCS‐
Photonics 4 CIMAP‐CRISMAT‐GPM‐
LCMT
Materials in nuclear environment
3 CIMAP‐CRISMAT‐GPM‐
LCMT
Catalysis from bio‐resource 1 CRISMAT‐LCMT‐LCS
Combustion engine coupled to thermoelectric modules
1 CORIA‐CRISMAT
CLEAN COMBUSTION Reactive flow simulation 4 CORIA‐LOMC
Pollution reduction 3 CIMAP‐CORIA‐LCS
MULTIDISCIPLINARY RESEARCH
Atomic Probe 3 CIMAP‐CORIA‐CRISMAT‐GPM
Laser technology and applications
3 CIMAP‐CORIA‐LOMC
Electron diffractometry 1 CRISMAT‐LCMT‐LCS
● Major advances in scientific knowledge To summarize, the LABEX EMC³ has permitted to strengthen 4 domains of expertise in Normandy: Thermoelectricity, Lasers, Fluid Mechanics and Atomic Probe. This can be seen by two lightly but relevant increases: 1) the amount of peer review papers in high ranked journals (Nature, Science) from 0 to 1 in 2009‐2010 to 5 from 2012‐2014 and also the total number of published articles which has increased by 17% from 2010 to 2014 and 2) the growth of patent claims during the same period. Total publications of the LABEX members
Publications/year CIMAP CORIA CRISMAT GPM LCMT LCS LOMC SUM
2010 125 64 117 151 25 77 26 585
2011 140 70 123 166 33 55 32 619
2012 171 76 109 130 35 52 31 604
2013 191 100 121 148 38 47 30 675
2014 183 77 117 208 35 34 30 684
16
Publications in high‐impact journals (Nature, Science)
Publications/year CIMAP CORIA CRISMAT GPM LCMT LCS LOMC SUM
2009 1 1
2010
2011 1 1 2
2012 3 2 5
2013 1 2 1 1 5
2014 1 2 1 1 5
Patent claims
Patents /year CIMAP CORIA CRISMAT GPM LCMT LCS LOMC SUM
2009 1 1 2
2010 1 1
2011 1 1 1 1 1 5
2012 1 1 2
2013 4 1 5
2014 0
● New na onal and interna onal scien fic partnerships As it would be developed in chapter 3.3, the PIA label has allowed the 7 members to participate and sometime to hold many new projects amongst the different European framework programs. Besides, the 30 funded projects have also initiated new national and international collaborations. In the table below are given a selection of these collaborations with the most renowned partners.
Project Laboratory New academic partners
MATISS CIMAP CEA‐Bordeaux (France)
OPTI GP RE LOMC ONERA (French aerospace research center)
SOLAIR CIMAP DGA (French governmental organization for
defense procurement)
LUZ CIMAP Centro Nacional de Microlectronica (Spain)
NANINOX
GPM Institute of Physics of Advanced Materials from Ufa University (Russia)
CIMAP Michigan State University (USA) CEA‐Saclay (Paris)
● Labex impact on the site's interna onal policy Concerning the international influence of Norman Research, the LABEX EMC³ is participating to its recognition with the recruitment abroad of future researchers. By now, 5 amongst 14 PhD students funded by the LABEX were postgraduates outside France; moreover 11 over the 26 research fellows come from foreign universities. For the second half of the LABEX duration, the Executive Committee has planned to put a specific program in place to facilitate the hiring of international young researchers inside the laboratory members. This program in agreement with the regional institutions is an original way to increase the attractiveness of the two Regions and the excellence of our research abroad. It will allow attracting outstanding young researchers for two years with co‐funding by the LABEX and the two Regions.
17
Finally, the international recognition is also demonstrated by the significant increase of visiting professors in the LABEX EMC³ laboratories over the period 2011‐2014 and without granting any financial support from the LABEX EMC³. Visiting professors/Associated researchers in the LABEX EMC³ field of research (duration ≥1 month)
year CIMAP CORIA CRISMAT GPM LCMT LCS LOMC SUM
2010 1 3 1 5
2011 4 2 1 7
2012 1 2 4 2 1 2 12
2013 3 4 3 1 1 5 17
2014 2 2 1 1 9 15
● Interdisciplinary influence Another impact of the LABEX EMC³ is the intensification of interdisciplinary research by making laboratories from different National Institute collaborates. Currently, 12 collaborative projects gather units from INC and INP, 5 projects rally teams from INP and INSIS, 3 projects for INC‐INSIS and 1 project for INP‐INC‐INSIS.
B) Ressources humaines/Human resources Politique RH, dans le cadre de la politique de l’Idex et/ou du site, du recrutement au suivi des parcours professionnels. Instruments RH nouveaux, recrutements significatifs Décrire l’ « effet labex » sur le recrutement des chercheurs et enseignants-chercheurs. Maximum 2 pages. Despite an unfavorable context for the hiring of researcher in the academic system (Universities/CNRS), the LABEX laboratories have kept a constant volume of hiring over the years. New statutory personnel (Researchers, Teacher‐researchers):
Hiring /year CIMAP CORIA CRISMAT GPM LCMT LCS LOMC SUM
2010 2 0 0 0 1 0 3
2011 1 3 2 0 0 1 7
2012 1 2 2 1 0 0 1 7
2013 1 0 1 0 1 0 0 3
2014 1 2 1 0 1 0 0 5
C) Moyens financiers, effets leviers/Financial resources, leverage effect Co-financement et levées de fonds, équipements, etc. permis par les financements du Labex, Expliciter la cohérence avec la politique scientifique globale des laboratoires. Maximum 1 page To shelter the technical tools required for the LABEX EMC³ and the EQUIPEX GENESIS research staff, a building dedicated to a future surface analysis platform and a facility focused in beam microscopy was built and delivered in the beginning of 2015. The new building in the ENSICAEN campus was co‐funded by national, regional and territorials grants for a total amount of 1 M€, without LABEX EMC³ support. The equipment part for the surface analysis for a total budget of 1.3 M€ will be co‐funded with 0.25 M€ from the LABEX EMC³. The residual input is completed through the “Contract de Plan Interrégional Etat‐Régions Vallée de Seine” (Upper and Lower‐Normandy, and Paris Region), as part
18
of the project “Matériaux en Seine”, linking EMC³ and GENESIS laboratories and the laboratories from Saclay. The equipment acquisition as planned in the financial package (10% total part of Labex finances) is:
Equipment Cost with taxes (M€)
Total Labex equipment (M€)
Labex participation 30% (M€)
Total expenditures2011‐2014 (M€)
SIMS 1.2374
4.4
0.317 ‐
Solid State NMR 0.742 0.404 0.404
Optical Diagnostics for fluids
1.245 0.311 ‐
Spectroscopy instrumentation
1.245 0.037 ‐
Laser for atomic probe
0.992 0.198 ‐
Also, for some of the research projects, smaller equipment has been bought:
Year Equipment expenses in
research projects Total research expenses
Equipment part of research expenses
2011‐2012 146 664 € 578 955 € 25%
2013 294 998 € 1 227 430 € 24%
2014 347 259 € 2 338 197 € 15%
The Labex labeling had a significant impact on regional investment as presented below:
Year Regional funding Region Amount
2011 Co‐funding of Transmission Electron Microscopy Lower‐Normandy 650 000 €
2012 4 PhD thesis co‐funded (CRISMAT/2xLCMT/LCS) Lower‐Normandy 177 100 €
Two‐year research fellow grant (CRISMAT) Lower‐Normandy 86 600 €
Co‐funding FEDER Equipment SOLAIR (CIMAP) Lower‐Normandy 38 814 €
Two‐year chair (CRISMAT) Lower‐Normandy 84 400 €
3 PhD thesis 100% funded
(3xGPM/LOMC/CORIA)
Upper‐Normandy 470 000 €
Five‐year chair (CORIA) CNRS 50 000 €
2013 Five‐year chair (CORIA) CNRS 50 000 €
Assistant engineer (CORIA) Upper‐Normandy 35 000 €
2 PhD thesis co‐funded (CORIA, LOMC) Upper‐Normandy 90 400 €
1 research fellow 100% funded (LOMC) Upper‐Normandy 43 100 €
DIAMECO analysis platform (LOMC) Upper‐Normandy 693 000 €
2014 5 PhD thesis 100% funded (3xGPM/2xLOMC) Upper‐Normandy 470 000 €
TOTAL SUM 2.9 M€
19
D) Impact du Labex sur la politique de son écosystème/ Labex Impact on its ecosytem policy Contribution à la structuration scientifique, rapprochement ou fusion d’unités de recherche, impact sur la politique de formation, etc.. On pourra préciser également des rapprochements et partenariats opérés avec d’autres projets du PIA : Labex, Equipex, Santé et biotechnologies, etc. Pour les Labex en réseau ou multi-sites, l’impact au niveau national sera décrit Pour les autres Labex, l’impact sur l’établissement, l’Idex ou le site sera décrit. Maximum 2 pages ● Scien fic structura on and eventual unit merger or fusion If the seven units have a long tradition of collaborations as evidenced by the existence of research federations such as IRMA (Research Institute for Advanced Materials, federating CRISMAT, GPM and CIMAP) and IEPE (Institute of Energy, Propulsions and Environment, federating CORIA, LCS and LOMC) or the applied‐research Carnot Institute on Energy and Propulsion systems (CORIA and GPM), the LABEX EMC³ has strengthened this network by creating new partnerships between teams who did not cooperate before and by sustaining strong collaborative researches on the following topics:
Involved Laboratories Research area
GPM‐ CORIA‐CIMAP‐CRISMAT Development of atom probe tomography
CRISMAT‐GPM‐LCMT‐LCS New thermoelectric materials based on oxides and/or
hybrid organic‐inorganic compounds
CRISMAT‐CORIA Integration of thermoelectric materials in combustion
engine
CORIA‐LOMC Turbulences, viscoelasticity and complex flows
modelling
CORIA‐LOMC Development of optic metrology of complex flows
CORIA‐CIMAP‐GPM‐CRISMAT Shaping of laser beams and laser sources
LCMT‐CRISMAT‐LCS‐GPM Study of continuous flow catalysts in ionic liquid
phases and interactions
LCMT‐LCS Mesoporous zeolites and uses as catalysts or
mesoporous membranes
LCMT‐CRISMAT‐CIMAP Nanostructuration and nanostructured devices for
photovoltaic applications
CIMAP‐LCMT Influence of irradiation on macromolecular materials
GPM‐CRISMAT Influence of irradiation on metal alloys
CRISMAT‐GPM Nanostructuration of permanent magnets
CRISMAT‐GPM Study of magneto‐transport properties in oxides
CRISMAT‐LCS‐CIMAP Development of electron diffraction
LCS‐CORIA Relation between soot and combustion performance
on biofuel composition
CORIA‐CIMAP Characterisation of soot
The network diagrams below represent the evolution of partnership within the LABEX members from 2010 to 2014 (bolder link means more collaborative projects). As we can see new collaborations such
20
as LCS/CORIA, LCMT/GPM and CRISMAT/CORIA were initiated. Moreover partnerships between CRIMAT, CIMAP, GPM, CORIA and LOMC were strengthened.
● Relationship with other PIA projects The LABEX EMC³ has developed some relationship with other PIA projects or their research units. We can mention the participation of the CIMAP teams in the national network LABEX GANEX working on nitride derivatives of the boron group. Despite the fact that the two LABEX have not succeeded to establish a collaborative project during the 2014 inter‐labex project call due to unbalance between both funds, it is still hoped to find a way to collaborate in the near future. Secondly we should notice the strong integration of the GENESIS EquipEx project with the LABEX EMC³ researches. This equipment framework built on the French call “Equipements d’Excellence” (hold by GPM, CIMAP and Saclay), is a unique platform in Europe for the development of experimental analysis at nanoscale of irradiated materials. For example it is an essential mean for the irradiated materials studies taking place in the projects TEPRI (polymers) and NANINOX (alloys). More generally, elements of this platform are involved in the main LABEX research projects including material analyses. Other equipment platforms are interacting with LABEX EMC³ members such as the High performance computing mesocenters network called EQUIP@MESO that is working in close relationship with the CORIA teams on modelling complex flows and sprays. The DESIR (decay, excitation and storage of radioactive ions) and S3 (Super Separator Spectrometer) facilities are used by the CIMAP teams on irradiation research. Furthermore, the nanoelectronic PIA project MEDILIGHT 2017 that aims to develop LED applications on medical and lightning markets strengthens the link between upstream research (CRISMAT), innovative technologies (CEA‐LETI) and industrialisation (IPDIA, a local SMES) by implementing a pilot facility shared between partners based in Caen. The project NANOHOLO of the LABEX EMC³ on the development of holography techniques in atomic probe aspires to bring new metrology in the field of nanoelectronics was partly carried on this facility. At this time, one inter‐labex project has been selected during the 2014 project call (AAP2014) implying collaboration with the LABEX CAPRYSSES dedicated to aero‐thermodynamics and chemical kinetics for clean propulsion systems. This collaborative project COCC, starting in 2015, will deal with optimized combustion for carbon capture and involve a thesis co‐supervision.
● LABEX impact on educational policies As descripted in the initial report, researchers from LABEX laboratories are strongly involved in Master degree or Engineering diploma and give courses to the different localisations (Caen, Rouen,
21
Le Havre). Moreover the LABEX EMC³ promotes common Master diplomas such as Master 2 MANE (Materials, Nanoscience and Energy; common to ENSICAEN, Caen university and Rouen university), Master 2 EFE (Energy, Flows and Environment ; common to Le Havre university, Rouen university and INSA de Rouen), Master 2 DIODE (Development of instrumentation, optics and diagnostics ; Le Havre university and Rouen university). Indeed, the LABEX EMC³ funds a training exchange for Master 2 MANE student of Caen and Rouen in order to improve their formation and expertise on electronic microscopes and atom probe that are only available in the different LABEX laboratories. With the influence of the LABEX and the strengthening of Norman universities collaboration, the two regional Doctoral Schools (SIMEM in Caen and SPMII in Rouen and Le Havre) covering Physics Engineering sciences, and Materials are merging to a unique body called PSIM that would reunite around 200 PhD students from 6 of the 7 LABEX laboratories in October, this year. In 2014, an engineering school (ESITECH) under the Rouen university supervision and coordinated by both CORIA and GPM was created. It offers 3 specialities covering the expertise of the two partners: Diagnostics for fluids and energy systems, Materials reliability for transport and energy and Multi‐physical numerical modelling. ● LABEX impact on higher educa on establishments of the sites The LABEX EMC³ has made recently a significant impact on the regional university policy. The two executive managers of the LABEX EMC³ led a working group of the Norman I‐SITE project (PIA2) in the field of Energy, Materials and Combustion. Discussions within this group led to propose a structuration of Norman research centres on nuclear energy and renewable energy on the basis of existing collaborations and competencies within the LABEX EMC³. This I‐SITE is expected to carry on the EMC³ structuration and collaborations beyond the project closure in 2019 and to lead the research strategy of the laboratories to new identified trends such as hydrogen fuelling, production and storage, carbon capture and storage, nuclear energy including 3rd and 4th generation, battery improvement for hybrid and full electric engine,
3/ IMPACT SOCIO ECONOMIQUE / SOCIO-ECONOMIC IMPACT
Cette partie constitue un second focus sur l’impact socio-économique du Labex. Décrire ici les principaux impacts déjà constatés du projet, en reprenant notamment la déclinaison opérationnelle des éléments spécifiés dans l’annexe dédiée de la convention (maximum 2 pages) 3.1 Partenariats avec les acteurs du secteur socio-économique (les entreprises, les pôles de compétitivité, les fondations...), et relations contractuelles établies ; création de start ups ; accueil d’industriels dans le Labex par exemple Partnerhips with social and economic actors (industrial actors, competitiveness clusters, fundations…) and established agreements; start-up creation; hosting of industrial actors in the Labex for instance… As presented in the submission report, the LABEX EMC³ is supported by the international competitiveness hub MOV’EO in automotive business. Our research roadmap fits in their Strategic Business Area on “Environmental impacts of vehicles”. This engagement between our two structures
22
is implemented with seats in the Steering Committee and in the Scientific Council occupied by Jean‐Dominique WAGRET, vice‐president of MOV’EO. In addition of this competitive cluster, the Steering Committee has got 3 seats for representatives of the energy, automotive and electronics industries who are Olivier Dupont (EDF, Electric utility company), Sylvain Allano (scientific director of PSA, automobile manufacturer) and Franck Murray (CEO of IPDIA, passive components supplier). Besides implication of economic actors in the governance of the LABEX EMC³, laboratory members are in close relation with local competitiveness and industry clusters such as: ● NAE: a Norman network of aeronautics, space, defense and security actors composed of SMES, large companies, research and higher education organizations. ● Nucleopolis: a Norman cluster commissioned to economic development of the local nuclear industry in the field of energy and health ● Energies Haute‐Normandie: an association of industries and research and higher education establishments specialized in the field of renewable and non‐renewable energies. ● Ouest Normandie Energies Marines: a public association aiming to be the privileged interlocutor to industries, territorial collectivities, State services and European Commission on marine renewable energy in Lower‐Normandy ● HYDRODATA 2020: a recent association of companies, territorial collectivities and universities dedicated at laying the foundation for a future technological research institute (IRT) and developping smart grids and hydrogen fuel business sector in Normandy. The hydrogen fuel industry, which is still in its infancy in Normandy, is seen by the LABEX EMC³ members has a trend for future research inside the laboratories and thus was supported as a development axis in the redaction of the Norman I‐SITE project. As described in the paragraph 1.5 project managers participated to some trade and show fairs and made few contacts with industrial representatives. But lately, the implication of researchers in those business fairs with the project manager has allowed making meaningful contact with industries that have yet to be realized through some partnerships. Nevertheless laboratories of the LABEX EMC³ have already string partnerships with the automotive, aerospace and energy industries. In the table below the number of contract with industrial partners is indicated:
Years 2011 2012 2013
Industrial contracts € 4 933 098 € 5 848 200 € 2 578 770
Nb new contracts 52 67 30
Service and consultancy € 627 495 € 205 947 € 395 915
Nb new services 27 15 49
SUM € 5 560 593 € 6 054 147 € 2 974 685
3.2 Relation avec la ou les SATT et le cas échéant, les IRT ou ITE ainsi qu’avec les autres dispositifs de transfert relevant des établissements d’enseignement supérieur et organismes de recherche/ Relationship with the SATT (Tech-Transfert Societies), where possible, IRT (Technological research instituts) or ITE (Technological research instituts in the field of energy) and with other transfer systems involved in higher education and research institutions
23
So far, there are neither SATT nor IRT in Normandy and our host universities are not part of an ITE, however collaborations with the “CNRT Materials”, a joint‐research center in Caen which encompasses five of our laboratories (CIMAP, CRISMAT, LCMT, LCS and LOMC) and with the Carnot Institute on Energy and Propulsion Systems, in Rouen which includes the two remaining labora M€tories (CORIA and GPM) act both of them as technology transfer centers. They host business managers who approach companies and SMES to deal services and research contracts. Nevertheless Norman Higher education institutions and economic development agencies are presently working on the mutualisation of their services toward tech‐transfer of local public research. They should lead to the creation of a SATT‐like agency within the year, called “Normandie Valo” which is part of the I‐SITE project. It will coordinate and organize the process of maturation and the development of new tools and services for tech‐transfer, complementing and in consultation with the different tech‐transfer services.
3.3 Relation à finalité économique avec des instituts de recherche partenariale européens, dans le cadre du PCRD, etc
Commercial relations with European public-private partnership research institute, within the Framework Programs, etc.
The seven LABEX EMC³ laboratories play a significant role amongst European Framework Programs as research partner but also as a project leader (see red label). The table below shows the so‐called programs, the main industrial partners and when the budget is fixed, the part granted to the LABEX laboratories.
Year UE funded projects Project type Private partners Budget (M€)
2010 AFDAR FP7‐Transport Lavision Gmbh
Global: 2.66
Lab: 0.14
FIRST FP7‐Transport Royce‐Rolls, SNECMA,
TurboMeca, AVIO
Global: 217
Lab: 0.14
THETAGEN FP7‐JTI THERMO‐GEN,
EVEKTOR
Global: 1.0
ENERMAT Interreg IV EMMI, GrupUnave Global: 2.5
Lab: 0.22
PERFORM 60 EURATOM AREVA, EDF, Rolls‐
Royce, GDF‐SUEZ
Global: 13.6
Lab: 2.9
LONGLIFE EURATOM AREVA, EDF, Rolls‐
Royce, Tecnatom S.A.
Global: 5.2
Lab: 2.9
2011 THERMOMAG FP7‐SME EADS, thermos‐gen
AB, Volvo AB, FIAT,
TEGma
Global : 5
LEMCOTEC FP7‐Transport SNECMA Global: 68.4
Lab: 0.22
MEET Interreg IV TWI Global: 5.1
Lab: 0.20
MONT BLANC FP7‐ICT Bull, ARM Ltd Global: 14.3
Lab: 0.01
24
2012 HAIC FP7‐TRANSPORT Airbus, Thales,
SAFRAN, Zodiac
Aerospace
Global: 22.8
Lab: 0.12
INNOVTEG FP7‐NMP European
Thermodynamics Ltd,
Euro Support
Advanced Materials
BV, Tata Steel UK Ltd
Global: 1.7
E3C3 Interreg IV EMMI, GrupUnave Global: 3.5
Lab: 0.70
2013 GENIE Interreg IV EADS, thermos‐gen
AB, Volvo AB, FIAT,
TEGma
Global: 1.2
OFELIA Interreg IV EICT GmbH, Deutsche
Telekom AG, NEC
Europe Ltd.
Global: 6.3
Lab: 0.98
ACTPHAST FP7‐ICT Global: 8
MATISSE EURATOM EDF Global: 8.8
2014
3.4 Actions entreprises pour la diffusion des connaissances ; leurs calendriers, leur pérennité (hors publications dans des journaux scientifiques) Promotion measures for knowledge dissemination; schedule, durability of the measures (excluding publications in scientific journals) As we discussed earlier, the LABEX EMC³ has got a website that presents firstly the EMC³ project and its governance and secondly introduces to closed research projects and their scientific results as well as their perspectives. This website serves as a knowledge diffusion platform and it is accessible to anyone. Another media is currently in the process of being implemented: a newsletter. This media will be dedicated to the same purpose namely the dissemination of scientific results, eventually new partnerships and achievements. The newsletter is planned to be edited every semester and will be spread to our laboratory personnel, student as well as our economic and institutional partners (industries, regional research offices, economic development agencies, tech‐transfer services…). Articles edited on our website haves a different schedule. They generally appear throughout the year due to the reception of closure reports and they are mainly written in collaboration with the scientific holder of the project. The 2014 monitoring of the website shows a large diffusion of our news at the national level (3540 page views) but also at the international scale with visitors coming from India (104 page views), USA (80 PV), Germany (50 PV) and Spain (34 PV) amongst other countries. Another media was established in the LABEX communication: a Twitter account. Firstly this platform helps to increase the visibility of the LABEX on the internet by increasing the page rank on search engines. But most of all, it allows to share information that a half‐yearly newsletter cannot bring. Our Twitter editorial content covers topics such as:
25
▪ National and European energy policies ▪ Public research policies and funding ▪ Laboratory members’ news (press article, new award…) ▪ Labex EMC³ news (Project call, business shows…) ▪ Energy, Materials and Clean Combustion news ▪ Job positions within the Labex EMC³
The editorial content is mainly dedicated to our researchers and students to bring them news on trends they could need for their research. The interest around this media is increasing constantly since 2014 as we can see the growing number of followers. Moreover the quality of our content can monitor by the number and the origin of the “Retweets” (copy of a post). It is not uncommon that our “tweets” (message) get reuse by the Research Ministry, the CNRS or some Universities. In 2014, the LABEX EMC³ organized with the CNRS and the MIRIADE (a local economic development agency), a round‐table about tech‐transfer and holography technologies. This public event was attended by a class of 20 students of the European Project Management Master‐degree (M2 EPE) of the University of Caen. Since 2014, the LABEX EMC³ offers an allocation to cover the registration of Master and PhD students to workshops and thematic schools organized by researchers from the LABEX. The initiative is planned to be reproduce each year it brought lot of success.
School topics Dates Localization Number of students
Zeolites 19‐20/05/2014 Caen 20
Turbulence and rotational flows
23‐26/06/2014 Le Havre 18
Atomic probe 27‐31/10/2014 Rouen 24
Finally, the LABEX EMC³ organizes and funds a thematic exchange for the students of Caen/Rouen universities joint Master on Materials, Nanoscience and Energy (M2 MANE). The exchange permits to student from the other university to benefit an atomic probe formation in Rouen and an electronic microscopy formation in Caen. Such trainings they cannot get without the LABEX finances.
26
COMMENTAIRES LIBRES / FREE COMMENTS
Ces commentaires libres peuvent porter sur le projet lui-même et sa trajectoire, sur les indicateurs fournis, sur les aspects financiers... (maximum 1 page) Since last year, the Executive Committee is working on a new program to address two main difficulties that our laboratories encounter with the LABEX ending in 2019 and the national research employment situation. Only four project calls (2011‐2014) for PhD thesis via long‐term projects could be scheduled. The projects selected in 2014 were launched at the beginning of 2015 and thus, should end in the beginning of 2019. From 2015, we are only able to support short‐time projects but they are not always long enough to achieve stated goals. Most of all, the French public research situation is critical. When most of the occidental countries are investing in innovation, the French R&D expenses are stagnating, the number of new permanent recruitments for researchers and lecturers are decreasing and short‐term contracts are increasing with the apparition of research fellows with strong experience floating from one lab to another. To address this issue, the Executive Committee with its partners (regional institutions and governing authorities) is working to establish a two‐year program that will permit to find international candidates for local competitive recruitment inside Higher Education establishments and/or research organisms. During those two years, the candidates will pursue a research project selected by the Scientific Council and will be prepared by his/her laboratory host for this atypical competition. A part of the project budget will be granted by the Regional institutions that aim to create employment and attract new resources. Following the announce of a new national PIA “Programme d’Investissement d’Avenir” project call in 2014, “Normandie Université” association, federating the 5 establishments (Caen, Rouen and Le Havre Universities and, Rouen and Caen Engineering schools) requested the LABEX EMC³ direction to manage a working group on Matter, Materials, Energy area to address a regional candidature in the I‐SITE category. This project Normand’I‐SITE would be essential to reinforce the local science, education and technology transfer for the next ten years.
27
Volet 2 - Indicateurs (toutes les données sont renseignées en année civile) RECONNAISSANCE SCIENTIFIQUE ERC* Médailles CNRS IUF **
2011 0 0 0
2012 0 0 0
2013 0 0 0
2014 0 0 1
Il s’agit des distinctions accordées chaque année aux enseignants-chercheurs et chercheurs intervenant dans le périmètre du Labex ; on compilera : (*) pour l’ERC les starting grants, consolidator grants et advanced grants, (**) pour les IUF, les juniors et les seniors…
AUTRES PRIX ET DISTINCTION SCIENTIFIQUE Le Labex est libre de signaler dans ce paragraphe toute distinction qu’il lui semblerait utile de porter à
la connaissance du jury.
Maximum une demie page (3400 caractères).
Pour le CIMAP :
Mr. Marcel TOULEMONDE a été récompensé par le prix de la conférence internationale « Radiation Effects in
Insulators » pour sa contribution tant théorique qu’expérimentale la compréhension des effets d’irradiation
dans les matériaux isolants.
Pour le CORIA :
2011, Vincent Moureau et logiciel YALES2, IBM Faculty Award
Pour le CRISMAT :
2013 : Wilfrid PRELLIER, prix de la division de chimie du solide de la Société Chimique de France (SCF)
Pour le GPM :
2010 : Médaille CHEVENARD SF2M P. Pareige
Le prix "FEMS lecturer Award" décerné à Xavier Sauvage. 12 août 2010
Pour le LCS :
2014 : Valentin Valtchev and Svetlana Mintova Médaille Cronstedt (Fédération Européenne des Zéolithes)
2013 : Philippe Bazin Cristal du CNRS
2012 : Arnaud Travert prix DivCat
Pour le LOMC :
2014 : François Lique, Prix Jeune Enseignant‐Chercheur" de la SF2A, Société française d’astronomie et
d’astrophysique
28
PUBLICATIONS Année Nombre de publications dans
des revues internationales Nombre de monographies,
d’ouvrages collectifs, d’actes...
2011 0 0
2012 2 0
2013 23 3
2014 27 0
On recensera les publications et ouvrages où le Labex est spécifiquement mentionné
ETUDIANTS EN MASTER (PARTICIPANT AU DEVELOPPEMENT SCIENTIFIQUE DES
AXES DU LABEX) Année Nombre
d’étudiants en Master
2011 0
2012 9
2013 13
2014 15
EFFECTIFS DU LABEX (DU DEBUT DU PROJET A FIN 2014) - PERSONNELS
STATUTAIRES Nombre de personnes physiques ETPT
Chercheurs (dont IGR) 40 4.92
Enseignants-chercheurs 101 12.52
Personnels de soutien 7 0.75
EFFECTIFS DU LABEX (DU DEBUT DU PROJET A FIN 2014) - PERSONNELS EN CDD : POST-DOCTORANTS/DOCTORANTS Post-doctorant : Nb
de personnes physiques
Post-doctorant : ETPT
doctorant : Nb de personnes physiques
doctorant : ETPT
Chercheurs (dont IGR)
33 15.36 20 12.35
29
EFFECTIFS DU LABEX (DU DEBUT DU PROJET A FIN 2014) - PERSONNELS EN CDD : AUTRES Autres : Nb de
personnes physiques Autres : ETPT
Chercheurs (dont IGR)
0 0
Enseignants-chercheurs
0 0
Personnels de soutien 14 2.81
EFFECTIFS DU LABEX (DU DEBUT DU PROJET A FIN 2014) - PERSONNELS EN CDI Autres : Nb de
personnes physiques Autres : ETPT
Chercheurs (dont IGR)
4 0.27
Personnels de soutien 1 0.05
DOCTORANTS
Année Nombre de thèses
initiées dont le
financement est
entièrement assuré par le Labex
Nombre de thèses initiées
co-financées à 50% ou plus par le Labex
Nombre de thèses CIFRE initiées
Nombre de thèses
soutenues dont le
financement est
entièrement assuré par le Labex
Nombre de thèses soutenues
co-financées à 50% ou plus par le Labex
Nombre de thèses CIFRE
soutenues
Nombre de thèses en
cours dans le Labex (quel que soit le
type de financement)
2011 0 0 0 0 0 0 0
2012 3 4 0 0 0 0 9
2013 6 0 0 0 0 0 21
2014 2 0 0 0 0 0 23
30
DONT: DOCTORANTS (AYANT EFFECTUES LEUR M2 OU EQUIVALENT DANS UNE
AUTRE UNIVERSITE QUE CELLE OU ILS SONT INSCRITS EN THESE) Année Pourcentage (%) de doctorants financés à
50% ou plus par le Labex ayant effectué leur M2 ou équivalent dans une université
étrangère
Pourcentage (%) de doctorants financés à 50% ou plus par le Labex ayant effectué leur M2 ou
équivalent dans une université française
2011 0 0
2012 86 % 14 %
2013 67% 33%
2014 50% 50%
DONT: POST-DOCTORANTS
Année Nombre total de post-doctorants (personnes physiques)
Dont nombre de Post-doctorants étrangers recrutés à l’étranger (personnes physiques)
2011 0 0
2012 8 4
2013 11 5
2014 9 2
*Seront comptabilisés uniquement les post doctorants dont le salaire est assuré entièrement ou partiellement
par le financement IA du Labex.
LES PROFESSEURS INVITES
Année Somme des mois effectués par des professeurs invités financés entièrement ou partiellement
par le Labex
2011 0
2012 0
2013 0
2014 0
31
VALORISATION ET RESSOURCES PROPRES Année Nombre de brevets déposés
dans l’année sur les travaux financés par le Labex
2011 0 2012 0 2013 0 2014 0
COFINANCEMENTS PAR ETABLISSEMENT PARTENAIRE
Etablissement
Coordinateur /
Partenaire ayant
obtenu le financeme
nt
Type cofinanceu
r *
Nom cofinanceu
r
Nature / Objet du
financement **
Montant sur lequel le cofinanceur s’est engagé sur la durée
du projet (en €)
Montants perçus en 2011 (en
€)
Montants perçus en
2012 (en €)
Montants perçus en
2013 (en €)
Montants perçus en
2014 (en €)
CNRS
PUBLIC‐
ADMINISTR
ATION
SGAR‐
Préfecture
de Basse‐
Normandie
Equipement
RMN 269 729,00 45 952,03 25 569,11
CNRS
PUBLIC‐
ADMINISTR
ATION
SGAR‐
Préfecture
de Basse‐
Normandie
Equipement
PPMS 117 062,00 22 732,40 90 929,60
CNRS
PUBLIC‐
ADMINISTR
ATION
SGAR‐
Préfecture
de Basse‐
Normandie
Equipement
analyseur
mécanique
dynamique
(ITEM)
46 760,00 37 408,00
CNRS
PUBLIC‐
ADMINISTR
ATION
SGAR‐
Préfecture
de Basse‐
Normandie
Equipement
diffraction
des RX et
spectromèt
re (COLIBRI)
91 386,88 16 400,32
CNRS
PUBLIC‐
COLLECTIVI
TES
Région
Basse‐
Normandie
Equipement
PPMS 105 593,00 52 796,50 52 796,50
CNRS
PUBLIC‐
COLLECTIVI
TES
Région
Basse‐
Normandie
Co‐
financemen
t thèse
DELACOTTE
44 149,00 7 213,00 14 714,00 15 009,00
32
(ITEM)
CNRS
PUBLIC‐
COLLECTIVI
TES
Région
Basse‐
Normandie
Co‐
financemen
t thèse EL
SIBLANI
(COLIBRI)
44 149,00 21 927,00
CNRS
PUBLIC‐
COLLECTIVI
TES
Région
Haute‐
Normandie
Co‐
financemen
t thèse
GRARE (3D)
50 000,00 7 000,00
CNRS
PUBLIC‐
COLLECTIVI
TES
Région
Haute‐
Normandie
Co‐
financemen
t thèse
LEBON (3D)
50 000,00 7 000,00
CNRS
PUBLIC‐
COLLECTIVI
TES
Région
Basse‐
Normandie
Co‐
financemen
t thèse
VITTOZ
(COLIBRI)
44 149,00 7 213,00 14 714,00 15 009,00
CNRS
PUBLIC‐
COLLECTIVI
TES
Région
Basse‐
Normandie
Co‐
financemen
t thèse
PAREIN
(ITEM)
44 149,00 7 213,00 14 714,00 15 009,00
CNRS
PUBLIC‐
ADMINISTR
ATION
SGAR‐
Préfecture
de Basse‐
Normandie
Co‐
financemen
t
Equipement
diffractomè
tre
(COLIBRI)
62 000,00
CNRS
PUBLIC‐
COLLECTIVI
TE
Région
Basse‐
Normandie
Co‐
financemen
t
Equipement
diffractomè
tre
(COLIBRI)
50 000,00 25 000,00
TOTAUX 1 439 968,88 143 119,93 118 865,5 254 334,03
*Seuls sont acceptés les types de cofinanceurs suivants (Veuillez respecter les majuscules et tirets):
PUBLIC-ANR
33
PUBLIC-COLLECTIVITES PUBLIC-ADMINISTRATION PUBLIC-AUTRES-ORGANISME PRIVE-ENTREPRISES PRIVE-ETABLISSTS-DE-SANTE PRIVE-AUTRE INTERNATIONAL-COMMISSION-EUROP INTERNATIONAL-AUTRES
Pour les fonds FEDER , merci de répartir les montants indiqués entre les types de co-financeurs « PUBLIC-COLLECTIVITES» et « INTERNATIONAL-COMMISSION-EUROP » en fonction de la provenance des fonds.
Pour les fonds CPER, merci de répartir les montants indiqués entre les types de co-financeurs «PUBLIC-COLLECTIVITES» et « PUBLIC-ADMINISTRATION» en fonction de la provenance des fonds.
** Nature et objet du financement : On précisera notamment si le financement est apporté en monétaire, en nature (ex: locaux, matériels...) ou en personnels.
34
Liste des annexes :
‐ Liste des publications relevant du projet et citant le financement PIA, ‐ Liste des thèses en cours financées partiellement ou totalement par le financement
Labex (titre de la thèse, nom du doctorant, université d’inscription, université d’origine) ‐ Liste des post‐Doctorants financés partiellement ou totalement par le financement
Labex (Sujet de recherche, nom, université d’origine) ‐ Liste des chercheurs invités (Nom, prénom, pays d’origine) pour une période de plus
de 2 mois. ‐ Liste des brevets et licences logiciels. ‐ Bilan des contrats pour les 7 laboratoires.
LABEX EMC31 Projets de Recherche Date Journal Sujet Auteur Date Auteur Lieu Sujet brevets start‐up
1‐201 MATISS
15/10/13 Optics lettersHigh‐brightness fiber laser‐pumped 68 fs–2.3 W
Kerr‐lens mode‐locked Yb:CaF2 oscillatorG. Machinet et al.
18/03/13Proceedings SPIE
Solid State Lasers
Fluoride waveguide lasers grown by liquid phase
epitaxyP. Camy
01/01/13 P. Camy San Francisco Fluoride waveguide lasers grown by liquid phase epitaxy
01/06/13 P. Camy MoscouRare‐earth doped fluoride crystals for short‐pulse and
waveguide lasers
10/06/13 G. Brasse Cherbourg
Observation des agrégats d'ions Yb3+ dans CaF2 par
microscopie haute résolution et spectroscopie de
fluorescence à basse température
CIMAP/GPM15/09/2014
Physical Review B
90, 125214 (2014)Direct imaging of rare earth ion clusters in Yb:CaF2 B. Lacroix et al
GPM
1‐202 Opti GP RE
01/04/13Combustion and
Flame
An optimization‐based approach to detailed
chemistry tabulation: Automated progress
variable definition
Y.‐S. Niu, L. Vervisc h&
P.‐D. Tao
2013
Eds Center for
Turbulence
Research,
Stanford.
Hybrid transported‐tabulated strategy to
downsize detailed chemistry for Large Eddy
simulation in “studying turbulence by using
numerical simulation databases XIV"
G. Ribert, P. Domingo
& L. Vervisch
25/06/13 B. Farcy
European
Combustion
Meeting, Lund
Numerical modelling of selective non catalytic
reduction DeNOx Process,
25/06/13 G. Ribert
European
Combustion
Meeting, Lund
Hybrid Transported‐Tabulated Strategy to Downsize
Detailed Chemistry for Large Eddy Simulation
LOMC01/06/13
Y. Nawab, A.
Saouab, C. H. Park, RouenShape distortion of Carbon/epoxy composite Parts
during fabrication
1‐203 SOLAIR
2013Appl. Opt. 52,
5766‐5772
Spatial properties of coaxial superposition of two
coherent Gaussian beams K Aït‐Ameur
08/08/2013 Optics letters Vol. 320 W continuous‐wave cladding‐pumped Nd‐
doped fiber laser at 910 nm M. Laroche
2013Applied Optics,
Vol. 52, 8310‐8317 Reconstruction‐free sensitive wavefront sensor
based on continuous position sensitive detectors.
T. Godin, M.
Fromager, E. Cagniot,
M. Brunel, K. Aït
Ameur
07/01/2014
OpticsLetters
dx.doi.org/10.1364
/OL.39.000267Mode‐lockedNd‐dopedfiber laser at 930 nm A. Hideur, M. Laroche
09/06/13M. Laroche
CLEO/QELS, San
Jose
20 W continuous‐wave cladding‐pumped Nd‐doped
fiber laser at 910 nm
07/07/13
M. Laroche
Journées
Nationales de
l’Optique Guidée,
Paris
Laser à fibredopée néodymedélivrant 20W à 910nm
08/07/13 A. Hideur ParisLaser à fibre à verrouillage de modes émettant à 930
nm14‐17 April
2014K. Aït‐Ameur Brussels, Belgium.
Reconstruction‐free wavefront measurements with
enhanced sensitivityPatent pending n°FR13
53065
CORIA/CIMAP
2013
J. of Quantitative
Spectroscopy and
Radiative
Transfer, Vol. 126,
113‐121
Phase contrast metrology using digital in‐line
holography: general models and reconstruction of
phase discontinuities
M.Brunel, H. Shen, S;
Coetmellec, D. Lebrun,
K. Ait Ameur
2013
Appl. Opt., Vol.
52, A147‐160
Digital in‐line holography with a rectangular
complex coherence factor
C. Rémacha, S.
Coëtmellec, M. Brunel,
D. Lebrun
2014
J. Europ. Opt.
Soc.: Rap. Public.,
Vol. 9, 14021
Digital In‐Line holography assessment for general
phase and opaque particles.
S. Coëtmellec, W.
Wichitwong, G.
Gréhan, D. Lebrun, M.
Brunel, A.J.E.M.
Janssen
2014
J. Europ. Opt.
Soc.: Rap. Public.
Vol. 9, 14008
Interferometric out‐of‐focus imaging simulator
for irregular rough particles
M. Brunel, S.
Coetmellec, G.
Gréhan, H. Shen,
CIMAP/CORIA 2014
Optics and Lasers
in Engineering,
Vol. 54, 88‐92
Size metrology of a pure phase object based on
the laser probe beam reshaping
M. Fromager,
M.Brunel, K. Aït Ameur
20/08/12
M. Brunel
Québec
Transfer matrices formalism for the design of complete
laser diagnostic systems: applications to Femtosecond
Digital Holography and Interferometric Laser Imaging
for Droplet Sizing
08/07/13 A. Hideur
Journées
Nationales de
l’Optique Guidée,
Paris
Laser à fibre à verrouillage de modes émettant à 930
nm
09/06/13M. Brunel
CLEO/QELS, San
JoseMode‐lockedNd‐dopedfiber laser at 930 nm
05/04/13M. Brunel
RGJ – PhD
Congress XIV,
Choubari
Optical characterization of particle fields : Progresses
and challenges en the field of energy
15‐
19/09/2014 Brunel, Gréhan Marseille, France.
Imagerie interférométrique laser en défaut de mise au
point: développements théoriques, caractérisation de
gouttes et bulles dans un volume, extension à la
caractérisation de particules rugueuses irrégulières
19‐
22/05/2014 Gréhan, Brunel Beijing, China..
Some progresses on interferometry techniques applied
to particle measurements”, 7th World Congress on
Particle Technology (WCPT7)
1‐204 ASAP
19/02/2013
Ultramicroscopy
doi:
10.1016/j.ultrami
c.2013.02.002
Coupling Atom Probe Tomograpgy and
Photoluminescence Spectrscopy: Exploratory
Results and Perspectives
L. Rigutti, Vella A,
Vurpillot F, Gaillard A,
Sevelin‐Radiguet N,
Houard J, Hideur A,
Martel G, Jacopin G,
De Luna Bugallo A,
Deconihout B.
dec 2014
Ultramicroscopy
doi:10.1016/j.ultra
mic.2014.11.018
Role of the resistivity of insulating field emitters
on the energy of field‐ionized and field‐
evaporated atoms
L Arnoldi, EP Silaeva, F
Vurpillot, B
Deconihout, E Cadel, I
Blum, A Vella
an 2014J. Appl. Phys. 115,
203705 (2014)
Energy deficit of pulsed‐laser field‐ionized and
field‐emitted ions from non‐metallic nano‐tips
L. Arnoldi, E. P.
Silaeva, A. Gaillard, F.
Vurpillot, I. Blum, L.
Rigutti, B. Deconihout
and A. Vella
GPM/CIMAP an 2014
The Journal of
Physical Chemistry
C, J. Phys. Chem.
C, (2014), 118
(41), pp
24136–24151
Composition of Wide Bandgap Semiconductor
Materials and Nanostructures Measured by Atom
Probe Tomography and Its Dependence on the
Surface Electric Field
L. Mancini, N. Amirifar,
D. Shinde, I. Blum, M.
Gilbert, A. Vella, F.
Vurpillot, W. Lefebvre,
R. Lardé, E. Talbot, P.
Pareige, X. Portier, A.
Ziani, C. Davesnne, C.
an 2014
Nano Lett., 14 (1),
pp 107–114,
(2014)
,Correlation of Microphotoluminescence
Spectroscopy, Scanning Transmission Electron
Microscopy, and Atom Probe Tomography on a
Single Nano‐object Containing an InGaN/GaN
Multiquantum Well System
Lorenzo Rigutti, Ivan
Blum, Deodatta
Shinde, David
Hernández‐
Maldonado, Williams
Lefebvre, Jonathan
Houard, François
2014Nano Lett, 14 (11),
6066‐6072, 2014.
Do dielectric nanostructures turn metallic in high
electric dc fields?
1. E. Silaeva, L.
Arnoldi, M.L. Karahka,
B. Deconihout, A.
Menand, H.J. Kreuzer,
and A. Vella
dec 2014Appl. Phys. Lett.
105, 243106 (2014)
Three‐dimensional nanoscale study of Al
segregation and quantum dot formation in
GaAs/AlGaAs core‐shell nanowires
L Mancini, Y Fontana,
S Conesa‐Boj, I Blum, F
Vurpillot, L
Francaviglia, E Russo‐
Averchi, M Heiss, J
Arbiol, A Fontcuberta i
Morral, L Rigutti
02/07/2013 L.Rigutti
Congrès de la
Société Française
de Physique,
Marseille
Corrélation de sonde atomique tomographique et
spectroscopie de micro‐photoluminescence: résultats
préliminaires sur des nanofils semiconducteurs,
Congrès de la Société Française de
08/09/13 E. Silaeva
European
Congress on
Advanced
Materials and
Processes
EUROMAT, Seville‐
Espagne
Effect of high electrostatic field on the interaction of a
femtosecond laser pulse with a semiconductor atom‐
probe tip
01/11/13 I. BlumAVS Conference,
Long Beach (USA)
Correlation of micro‐photoluminescence spectroscopy,
transmission electron microscopy and atom probe
tomography on an InGaN/GaN multi‐quantum well
system
CIMAP/CORIA
CORIA
GPM
GPM
conférencespublications
CIMAP
CORIA
CIMAP
12/11/13 L. Rigutti
Nanowires
Workshop, Tel
Aviv (Israel)
Correlation of µPL, TEM and APT on a single nanoobject
containing an InGaN/GaN multi‐quantum well system
08/09/13 A. Vella
European
Congress on
Advanced
Materials and
Processes
EUROMAT, Seville‐
Espagne
Role of surface state and defects in the field
evaporation of oxides
2 Aout 2014 F. Vurpillot
IUMAS VI,The
International
Union of
Microbeam
Analysis Societies,
Hartford, CT, USA
Workshop on APT : Fundamentals of atom probe
tomography (Invited)
31 Aout 2014 F. VurpillotAPT&M 2014,
Stuttgart
Atom Probe Tomography pre meeting school; Field
emission and field evaporation, invited
15 decembre
2014F. Vurpillot
CPR ODISSE
Orleans
Metrologie de la Sonde Atomique Tomographique: de
l’approche microscopique à l’appoche macroscopique
(invité)
22/10/14 F. Vurpillot
workshop
"Electron‐driven
molecular
processes and
spectroscopy", Le
Havre
Molecular Dissociation under high electric field in APT,
invité
14/11/13 L. Rigutti
Nanowires
Workshop,
Rehovot (Israel)
Correlation of µPL, TEM and APT on a single nanoobject
containing an InGaN/GaN multi‐quantum well system
13/05/14 L. RiguttiIPRM‐CSW
Montpellier
Correlation of µPL, TEM and APT on a single nano‐
object (invited)
27/08/14 L. Rigutti
Nanowire
Workshop,
Eindhoven
Atom probe tomography of III‐N nanowire
heterostructures and its correlation with optical
spectroscopy and transmission electron microscopy
(invited)
25/09/14 L. Rigutti
Quantum Dots
Workshop, High
Magnetic Field
Laboratory,
Toulouse
Correlating structural and optical properties of III‐N
nanowire quantum structures at the single nano‐object
level (invited)
29/10/14 L. RiguttiGDR PULSE +
Nanofils, Toulouse
Corrélation entre propriétés optiques et structurales de
nano‐objets uniques contenant des hétérostructures III‐
V (invité)
02/09/2014 L. RiguttiAPT&M 2014,
Stuttgart
Correlation of optical and structural properties of a
single nano‐object analyzed by micro‐
photoluminescence spectroscopy, transmission
electron microscopy and atom probe tomography
03/12/2014 L. ManciniConférence J2NO,
Orléans
Three‐dimensional atom probe analysis of Al
segregation and quantum dot formation in
GaAs/AlGaAs core‐multishell nanowires
03/09/14 L. ManciniAPT&M 2014,
Stuttgart
Role of surface electric field in the deviations from
stoichiometric composition in atom probe tomography
of compound semiconductors: conditions for a correct
measurement of alloy fractions
03/09/14 J.HouardAPT&M 2014,
Stuttgartfield evaporation of non‐metallic materials
03/09/2014 I. BlumAPT&M 2014,
Stuttgart
Energy deficit and energy dispersion in laser assisted
atom probe tomography
05/07/2014 A. VellaIVSC 2014 Saint
Petrabourgenergy deficit of pulsed‐laser ionized ions
04/09/2014 I. BlumAPT&M 2014,
Stuttgart
Coulomb repulsion between dissociation products in
atom probe tomography
12‐16 Mai 2013 A. Hideur
CLEO‐Europe‐
EQEC conference,
Munich,
Allemagne
Passively mode‐locked laser based on an ultra‐large
dispersion Yb‐doped fiber
24‐29 Aout
2014A. Hideur
6th EPS‐QEOD
EUROPHOTON
CONFERENCE,
Neuchatel,
Switzerland
High‐power High‐power ultra‐short pulse generation
from an Er‐doped fiber amplifier
27‐30 juillet
2014A. Hideur
Advanced
Photonics
Congress :
Speciality Optical
Fibers (SoF),
Barcelona Spain
High‐energy ultrafast fiber lasers
01/07/13 J. Cardin
International
Conference on
Materials for
Advanced
Technologies
Nanostructured Silicon and Rare Earth Based Gain
Media for Compact Infra‐red Light, Experimental and
Theoretical Investigations,
02/07/13 J. Cardin
International
Conference on
Materials for
Advanced
Technologies
Development of New Kinds of Plasmonics Materials
Through Swift Heavy Ion Shaping Technique,
9‐11 Juillet
2014
F. Gourbilleau*, P.
Benzo, L. Dumont,
J. Cardin, C.
Dufour and C.
Labbé
Conférence
invitée :EMSI
2014‐
International
Conference on
Electron
Microscopy.
New Delhi
Rare earth ions coupling for the new generation of
down converter layers
1‐205 COLIBRI
27‐28/06/2013 P.F. Vittoz
Journées Nord‐
Ouest
Européennes des
Jeunes
Chercheurs, Le
Havre
Renewable bio‐resources ‐ supports for SILC (Supported
Ionic Liquid Catalyst) technology
12/12/12 I Dez
SCF Journées de la
Section Régionale
Centre‐Ouest,
Poitiers
Polysaccharides marins/liquide ionique : Quels atouts
pour la catalyse ?
24/05/12 I. DezGlycoSciences2012
, Le Havre
Matériaux Catalytiques à base de Polysaccharides et de
Liquide Ionique
07/06/13 P.F. Vittoz
Journée Ecole
Doctorale
Normandie
Chimie, Caen
Catalytic materials and ionic liquids for renewable bio‐
resources enhancement
13‐18 Juillet
2014
Pierre‐François
Vittoz, Jocelyne
Levillain, Hussein El
Siblani, Baptiste
Rigaud, Christian
Fernandez, Alina
Bruma, Sylvie Malo,
Annie‐Claude
Gaumont & Isabelle
Dez
BOSS XIV /
Louvain la Neuve
(Belgique)
Elaboration of catalytic materials based on bio‐
resources
22/10/12 A. BrunaUniversité de
Rouen
Atomic level imaging of monometallic polymer
encapsulated Pd nanoparticles and bimetallic AuPd
nanoclusters
23/11/13 A. Bruna CaenDirect atomic imaging and density functional theory of
transition metal nanoalloys
12/07/14 A. Bruna IEM MontpellierAtomic imaging of single Pd doped Au25 clusters and
Pd nanoparticles embedded into Na alginate polymer
GPM
LCS
10/12/13 H. EL SIBLANI
Journée
scientifique de la
fédération EPE,
Rouen
New Recyclable Catalytic Materials: Development and
Understanding of Reactivity
1‐206 ITEM
01/07/13 C. Delacotte Bordeaux ‐ ECCSIXTEM analyses to tune new layered thermoelectric
oxides
01/10/13 D. Pelloquin Rennes ‐ ISIEM
Transmission Electron Microscopy study of CaFe5O7 :
evidence of a monoclinique superstructure at room
temperature
01/11/13 C. DelacotteCaen ‐ journée
IRMA
Transmission Electron Microscopy study of CaFe5O7 :
evidence of a monoclinique superstructure with
Fe3+/Fe2+ charge ordering
08/09/14 C. DelacotteEMC 18th, Prague,
7‐12 sept 2014
Transmission Electron Microscopy study of CaFe5O7
ferrite and structural evolution depending on
temperature
2014
Key Engineering
Materials 617,
237 ( 2014)
Transmission Electron Microscopy study of
CaFe5O7 : evidence of a monoclinique
superstructure at room temperature
D. Delacotte & al
2014
Inorganic
Materials 53 (19),
pp 10171–10177
(2014)
Structural Transition at 360 K in the CaFe5O7
Ferrite: Toward a New Charge Ordering
Distribution
D. Delacotte & al
01/09/12 F. Hüe Manchester ‐ EMC
Transmission Electron Microscope and Atom Probe
characterization of new Thermoelectric layered
cobaltite series
29/11/12 F. Hüe Boston ‐ MRS
Scanning Transmission Electron Microscopy and Atom
Probe Tomography Characterisation of Thermoelectric
Cobalt Oxide
16/05/13 T. Parein Nantes ‐ GFPElaboration et caracterisation de matériaux
thermoélectriques
25/09/13 T. Parein BratislavaElaboration and characterization of thermoelectric
materials
CORIA
CIMAP
LCMT
CRISMAT
GPM
CRISMAT
20/11/13 T. Parein
ECT2013 ‐
Noordwick
Netherlands
Elaboration and characterization of thermoelectric
materials
12/06/14 T. PareinMont St Aignan ‐
GFP
Elaboration de nanocomposites à propriétés
thermoélectriques
08/07/2014 T parein
IUPAC World
Polymer Congress
Macro 2014,
Chaing Mai
Thailand
“Elaboration and characterization of thermoelectric nanocomposites”
1‐207 MESOTHERM27/03/13 P. Bénard Rueil‐Malmaison Combustion simulation in a centimetric combustor
25/06/13 P. Bénard LundLES/DNS modelling of mesocombustion chambers with
Arrhenius complex chemistry
10/05/2013 P. Bénard Milan Combustion modeling in a centimetric combustor
01/04/13 P. Bénard San AntonioLES/DNS modelling of mesocombustion chambers with
Arrhenius complex chemistry
17/12/13 P. Bénard Bordes Modélisation détaillée d'un brûleur centimétrique
10/04/2013Dossier Technique
de l’Ingénieur
Thermoélectricité, Thermodynamique et
applicationsC. Goupil
10/04/2013Phys. Rev. B 87,
155410 (2013)Mesoscopic thermoelectric transport near zero
transmission energiesC. Goupil
CRISMAT 10/04/2013
Chapter 14 in
"Thermoelectric
Nanomaterials",
Editors Kunihito
Koumoto and
Takao Mori,
Springer Series
in Materials
Science Volume
182 (2013)
A linear nonequilibrium thermodynamics
approach to optimization of thermoelectric
devices
H. Ouerdane
02/05/2013 Physics Review BOnsager formalism, internal dissipation and finite‐
time thermodynamicsY. Apertet
21/08/2013Phys. Rev. E vol.
88, 022137
(2013)
From local force‐flux relationships to internal
dissipations and their impact on heat engine
performance: The illustrative case of a
thermoelectric generator
Y. Apertet
06/09/2013
Europhysic Letter,
EPL, 103 (2013)
40001
On the efficiency at maximum cooling power Y. Apertet
30/06/13
H. Ouerdane, Y.
Apertet, C. Goupil,
Ph Lecoeur
Kobe, ICTOptimization of thermoelectric generator operation
with dissipative coupling to heat baths
1‐208 TUVECO
12/11/2012
Physical Review E
vol 86, 056305
(2012)
Transition to Turbulence in a flow of a shear‐
tinning viscoelastic solution in a Taylor‐Couette
cell
N. Latrache, O.
Crumeyrolle & I.
Mutabazi
26/10/2012
European Physical
Journal E vol. 36,
20 (2013)Velocity field of the Spiral Vortex Flow in the
Couette–Taylor System
N. Abcha, A. Ezersky,
O. Crumeyrolle & I.
Mutabazi
19/11/2013European Physical
Journal E
Heat transfer in the thermo‐electro‐
hydrodynamic convection under microgravity
conditions
M.Tadie‐Fogaing, H.N.
Yoshikawa, O.
Crumeyrolle & I
Mutabazi
31/10/2013
European Journal
of Mechanics /
Fluids vol. 44, 82‐
87(2014)
Destabilzation of the Couette‐Taylor flow by
modulation of the inner cylinder rotation
M. Gassa‐Feugiang, O.
Crumeyrolle, K.S. Yang
& I Mutabazi
12/11/2013
Physics of Fluids,
vol. 25,114104
(2013)
Instability of the vertical annular flow with a
radial heating and rotating inner cylinder
H.N. Yoshikawa, M.
Nagata & I. Mutabazi
14/03/2013
Physical Review E
vol 87,
043003(2013)Dielectrophoretic Rayleigh‐Bénard convection
under microgravity conditions
H.N. Yohsikawa, M.
Tadie‐Fogaing, O.
Crumeyrolle & I.
Mutabazi
27/02/2013
Physics of Fluids
vol 25,
024106(2013)
Dielectrophoretic force driven‐convection in
annular geometry
H. N. Yoshikawa, O.
Crumeyrolle & I.
Mutabazi
2013
Generation on
Earth of an extra‐
terrestrial
environment
Thermo‐electrohydrodynamic convection in
dielectric fluids under microgravity
B. Futterer, H.N.
Yoshikawa, I. Mutabazi
& C. Egbers
2013 The Particle
Image Velocimetry
Application of the Particle Image Velocimetry to
the Couette‐Taylor flow
I. Mutabazi, N. Abcha,
O. Crumeyrolle & A.B.
Ezersky
2013Perspective in
fundamental and
applied rheology
Torque measurements in Newtonian and non‐
Newtonian fluids in Taylor‐Couette flow
B. Martinez‐Arias, J.
Peixinho, O.
Crumeyroolle & I.
Mutabazi
30/05/2014
Journal of Fluid
Mechanics vol
748, 756‐767
(2014)
Effect of the number of vortices on the torque
scaling in Taylor‐Couette flow
B. Martiez‐Arias, J.
Peixinho, O.
Crumeyrolle & I.
Mutabazi
19/08/12 R. Guillerm BeijingTransition in rotating annulus with thermal gradient:
experiments and numerical simulations
24/11/13 H. Yoshikawa Pittsburg Enhancement of heat transfer by Tyalor‐Görtler vortices
25/11/13 H. Yoshikawa PittsburgCouette‐Taylor flow under a thermoelectric body force
in microgravity
26/11/13 B. Martinez‐Arias PittsburgTorque measurements in Newtonian and non‐
Newtonian fluids in Couette‐Taylor flow
24/06/13 B. Martinez‐Arias TwenteTorque measurements in Newtonian and non‐
Newtonian fluids in Couette‐Taylor flow
24/06/13 C. Savaro Twente Effects of a radial temperature gradient on the
transition to turbulence in the Couette‐Taylor system
24/06/13 M. Tadie‐Fogaing TwenteElectrohydrodynamic instability in a dielectric fluid
between two vertical walls: numerical study
24/06/13 H. Yoshikawa TwenteCouette‐Taylor flow under a thermoelectric body force
in microgravity
Meyer, Yoshiakwa,
Crumeyrolle,
Mutabazi
San Francisco Thermo‐electrohydrodynamic internal waves in annular
geometry
Savaro, Prigent,
MutabaziSan Francisco
Solitary states in the Taylor‐Couette system with a
radial temperature gradient
Mutabazi, Bai,
CrumeyrolleSan Francisco
Viscoelastic Taylor‐Couette instability as an analog of
Magnetorotational instability
Bai, Crumeyrolle,
MutabaziISTROF‐Le Havre
Viscoelastic instability in the Couette‐Taylor system
with Keplerian corotating cylinders
Maartinez‐Arias,
Peixinho,
Crumeyrolle,
Mutabazi
ISTROF‐Le Havre Flow visualization and torque measurements of
viscoelastic fluids in Couette‐Taylor flow
Meyer, Yoshiakwa,
Crumeyrolle,
Mutabazi
ISTROF‐Le Havre Instabilities of the Taylor‐Couette flows subjected to a
radial temperature gradient and a radial electric field,
Prigent, Peixinho,
MutabaziISTROF‐Le Havre
Visualization of the turbulent spots and spiral in the
Taylor‐Couette system
F. Seychelles, L.
Danaila, I. MutabaziISTROF‐Le Havre Thermo‐hydrodynamic turbulence in Taylor‐Couette
system
Travnikov,
Crumeyrolle,
Mutabazi
ISTROF‐Le Havre Computation of Nusselt number for dielectrophhoretic
instability in a cylindrical annulus,
06‐09/05/14Mutabazi, Bai,
Crumeyrolle
EUROMECH
EC525
Viscoelastitc instability in differentially corotating
Couette‐Taylor system
CORIA 8‐10/09/2014C. Dumouchel, J.B.
Blaisot
Bremen
(Allemagne) Analysis of Atomizing Ligament
1‐301 3D
26/09/2013
Optics express
Vol. 21, Issue 20,
pp. 23522‐23530
(2013) Long-time exposure digital in-line holography for 3-D particle trajectography
D. Lebrun, L. Méès,
D. Fréchou, S.
Coëtmellec, M.
Brunel, and D. Allano
12/04/2013
Journal of
Quantitative
Spectroscopy and
Radiative Transfer
Volume 131,
December 2013,
Pages 153–159
Simultaneous 3D location and size measurement of spherical bubbles using cylindrical interferometric out-of-focus imaging
H. Shen, S. Coetmellec,
M. Brunel
24/01/2014
Optics
Communications
Volume 320, 1
June 2014, Pages
156–161
Interferometric out-of-focus imaging for the 3D tracking of spherical bubbles in a cylindrical channel
H. Shen, S. Saengkaew,
G. Gréhan, S.
Coe¨tmellec, M. Brunel
09/01/2014 International Journal of Optics dx.doi.org/10.1155/2014/143904
Determination of the size of irregular particles using interferometric out-of-focus imaging
Marc Brunel,
Huanhuan Shen,
Sébastien Coëtmellec,
Gérard Gréhan, and
Tony Delobel
05/02/2014
Journal of the European Optical Society Rapid Publication DOI: 10.2971/jeos.2014.14008
Interferometric out-of-focus imaging simulator for irregular rough particles
M. Brunel, S.
Coetmellec, G.
Gréhan, H. Shen
01/06/14 S. Saengkaew WashingtonCounting and measuring micro and nano particles by using Fourier Interferometric Imaging
01/08/14 S. Saengkaew MarseilleMeasurement of spray characteristics by FII: experimental validation on calibrated multijets
CORIA
LCMT
23‐25/11/14
23‐25/06/2014
LOMC
CORIA
dépôt logiciel N°06656 CNRS
15/09/14 B. Lebon MarseilleEtude 3D de l’interaction houle-structure par holographie numérique
20/11/14 B. Lebon Val de ReuilEtude 3D d'une dynamique tourbillonnaire par holographie numérique dans l'axe.
1‐302 HELIOSCIMAP
CRISMAT
LCMT
1‐303 CAHAPS
24/06/13
G. Saidani, N.
Bidault, A.
Domaracka, L.
Adoui, B. A. Huber,
A. Coppalle, J. Yon,
P. Rousseau
AarhusAdsorption of polycyclic aromatic hydrocarbons on
soot: Production of benchmark particles
01/06/13
Ghassen Saidani,
Niels Bidault, Bernd
Huber, Patrick
Rousseau, Jérome
Yon
LilleAdsorption of polycyclic aromatic hydrocarbons on soot
particles
CORIA
1‐304 DYTHER
CIMAP
CORIA et LOMC
2014Physics of Fluids,
(26) 076101, 2014.
On the onset of post‐shock flow instabilities over
concave surfaces
M.S. Shadloo, A.
Hadjadj, A.
Chaudhuri
3‐8/08/2014
A. Hadjadj, M.S
Shadloo, A.
Chaudhuri
21th International
Shock Interaction
Symposium, Riga,
Latvia
Effects of Reynolds number on flow instabilities over
concave surfaces
26/11/2013
I. Mutabazi, H.
Yoshikawa, J.
Peixinho et L.
Kahouadji
66th Annual
Meeting, APS
DFD, Pittsburgh,
PA, USA
Heat transfer enhancement by the Görtler vortices
developed on a wall with a finite thermal conductivity
19/03/2014
L. Kahouadji, H.
Yoshikawa, J.
Peixinho et I.
Mutabazi
17ème Rencontre
du Non‐Linéaire,
Paris
Heat transfer enhancement by the Görtler vortices
developed on a wall with a finite thermal conductivity
24/06/2014
L. Kahouadji, H.
Yoshikawa, J.
Peixinho et I.
Mutabazi
1st Workshop
ISTROF (Instability
and Turbulence in
Stratified
Rotaitonal Flows),
Le Havre
Impact of Görtler vortices on the heat transfer on a
wall with finite conductivity
1‐305 LUZ
2014
Phys. Status
Solidi C. 11 (2014)
1497–1500. doi
:10.1002/pssc.201
300636
Concentration determination and activation of
rare earth dopants in zinc oxide films
A. Ziani, A. Tempez, C.
Frilay, C. Davesnne, C.
Labbé, Ph. Marie, S.
Legendre and X. Portier
01/05/13
A. Ziani, A. Tempez,
C. Frilay, C.
Davesnne, C. Labbé,
Ph. Marie, S.
Legendre and X.
Portier
Oral Emrs
Strasbourg
Concentration determination and activation of rare
earth dopants in zinc oxide films
CRISMAT
GPM/CIMAP
2014
J. Phys. Chem. C.
(2014) doi
:10.1021/jp507126
4..
Composition of
Wide Bandgap Semiconductor Materials and
Nanostructures Measured by Atom Probe
Tomography and Its Dependence on the Surface
Electric Field
L. Mancini, N. Amirifar,
D. Shinde, I. Blum, M.
Gilbert, A. Vella, F.
Vurpillot, W. Lefebvre,
R. Lardé, E. Talbot, P.
Pareige,
X. Portier, A. Ziani, C.
Davesnne, C. Durand,
J. Eymery, R. Bu é,
∥J.F. Carlin,
∥
N.
Grandjean, and L.
Rigutti1‐306 NANINOX
GPM
déc‐14
Materials Letters
136 (2014) 349‐
352
Grain boundary segregation induced
strengthening of an ultrafine‐grained austenitic
stainless steel
M.M. Abramova,
N.A. Enikeeva,
R.Z. Valieva,
A. Etienne,
B. Radiguet,
Y. Ivanisenko,
X. Sauvage
GPM/CRISMAT/CIMAP 2014
IOP Conf. Series:
Materials
Science and
Engineering 63
(2014) 012121
Irradiation resistance of a nanostructured 316
austenitic stainless steel
P B Revathy Rajan, I
Monnet, E Hug, A
Etienne, N Enikeev, C
Keller, X Sauvage, R
Valiev and B Radiguet
21/04/2014
Prasath Babu
Revathy Rajan
MRS Spring
Meeting (San
Francisco)
Atom Probe tomography study of inter‐ and
intragranular segregation in nanostructured 316l
austenitic stainless steel under irradiation
30/06 au 04/07
2014Aurianne Etienne
NanoSPD 6 2014
(Metz)
Irradiation and corrosion resistance of a
nanostructured 316 austenitic stainless steel
2014Aurianne Etienne MRS Fall Meeting
2014 (Boston)
Irradiation and corrosion resistance of a
nanostructured 316 austenitic stainless steel
CIMAP
13‐14 mai 2013 I. Monnet
Workshop on
Materials in
Extreme
Environments
(MatX) Michigan
State University
Irradiation in metallic material,effects of electronic
excitations
CRISMAT
1‐401 AFLTEPMAGCRISMAT
GPM
1‐402 PICOLIBS
CORIA 2014Spectrochim. Acta
Part B
Theoretical study of the formation mechanism of
laser‐induced aluminum plasma using Nd:YAG
fundamental, second or third harmonics
V. Morel, A. Bultel
CORIA/CIMAP/LOMC 2014
J. Phys.: Conf.
Ser. 550 012047
Experimental characterization of the excitation
state of picosecond laser‐induced tungsten
plasmas
B. Pérès, V. Morel, A.
Bultel, A. Benyagoub,
I. Monnet, E. Gardès,
G. Godard, C. Gobin, C.
Jouen, A. Hideur, I.
Schneider, Z. Mezei
Juin 2014
B. Pérès, V. Morel,
A. Bultel, A.
Benyagoub, I.
Monnet, E. Gardès,
G. Godard, C.
Gobin, C. Jouen, A.
Hideur, I. Schneider,
Z Mezei
ToulouseExperimental characterization of the excitation state of
picosecond laser‐induced tungsten plasmas
Juin 2014 V. Morel, A. Bultel Toulouse
Achievement of local thermodynamic equilibrium for
ns laser‐induced plasmas on aluminum samples at
different wavelengthsCIMAP
2014 Phys. Rev. ARotational transitions induced by collisions of HD+
ions with low‐energy electrons
O. Motapon, N. Pop, F.
Argoubi, J. Zs. Mezei,
M. D. Epee Epee, A.
Faure, M. Telmini, J.
Tennyson, I. F.
Schneider
2014 Phys. Rev. ADissociative recombination of N2+: An ab initio
study
D. A. Little, K.
Chakrabarti, J. Zs.
Mezei, I. F. Schneider,
J. Tennyson
27‐30 october
2014
J. Zs. Mezei, I. F.
Schneider, Ch.
Jungen
RennesPhotofragmentation of H2: The importance of the
Rydberg states
27‐30 october
2014
O. Motapon, K.
Chakrabarti, D. A.
Little, J. Zs. Mezei,
N. Pop, F. Argoubi,
M. D. Epee Epee, A.
Faure, O. Dulieu, M.
Telmini, J.
Tennyson, I. F.
Schneider
Rennes
Excitation and recombination of molecular cations of
astrophysical interest with electrons: application to
H2+, CH+ and N2+
1‐403 DRUIDLCS
CORIA
1‐404 TEPRICIMAP
5‐9 octobre
2014Ventura Aude
Jeju Island
(Corée du sud)
Energy transfers in polyethylene under ionizing
radiation (oral)
12‐13 juin
2014Ventura Aude
Rouen, France
Transferts d'énergie dans le polyéthylène sous
rayonnements ionisants (oral)
1‐405 CMAIN
GPM/CRISMAT
11/2014
doi:10.1016/j
.matdes.201
4.06.053
Material and
design
Functional properties of a spark plasma sintered
ultrafine‐grained 316L steel
G. Marnier, C. Keller,
E. Hug, J. Noudem
07/2014J. Noudem, E. Hug,
C. Keller, G. Marnier
Toulouse (FR)
International
Workshop on SPS
sintesis.
Synthèse par SPS du 316L
CRISMAT
11/2014
K. Tabalaeiv, C.
Keller, E. Hug, G.
Marnier, B.
Radiguet, X. Sauvage
Montpellier (FR)
Matériaux 2014.
Synthèse par SPS du 316L nanocristallins et
caractérisation propriétés mécaniques
1‐406 NANOHOLOCRISMAT
GPM
CORIA
1‐407 NEOMAP
GPM
24‐28
novembre 2014
Virginie Nachbaur,
Emeric Folcke,
Nicolas Maât,
Pauline Barbey,
Malick Jean, Jean‐
Marie Le Breton
MontpellierSynthèse et caractérisation de nano‐composites
magnétiques Hexaferrite de Strontium ‐ Fer
CRISMAT
CORIA
LOMC
LCMT
CIMAP
LOMC
AAP Project Name, Surname Contract StartingContract
EndingHost Laboratory
Co‐funding
CRBNThesis title
Current host
university
Previous University
(postgraduate)
ASAP MANCINI Lorenzo 21/10/2013 20/10/2016 Gpm NoCarrelation Sonde atomique‐
photoluminescenceUniversity of Rouen Università di Bologna
(Italy)
VITTOZ Pierre‐François 08/10/2012 07/10/2015 Lcmt Yes
Catalyseurs Organométalliques
et Liquides Ioniques pour la
Valorisation de Bio‐ressources
Université de Caen
Basse‐Normandie
Université François
Rabelais Sciences et
Techniques de Tours
(France)
EL SIBLANI Hussein 19/11/2012 18/11/2015 Lcs Yes
Production of Hyperpolarized 129
Xe and applications by NMR
spectroscopy
Université de Caen
Basse‐Normandie
Université de Caen Basse‐
Normandie
KADAM Shashikant Arun 10/01/2013 09/01/2016 Lcs No
Unravelling Monomolecular
catalytic cracking of light
hydrocarbons over zeolites by
IR Operando Spectroscopy
Université de Caen
Basse‐Normandie
Indian Institute of
Technology Roorkee
PAREIN Thibault 01/03/2012 28/02/2015 Lcmt Yes
Synthèse de nanocharges
thermoélectriques, mise en
oeuvre et caractérisation de
nanocomposites
thermoélectriques
UCBN UCBN
DELACOTTE Charlène 01/10/2012 30/09/2015 Crismat Yes
Research and structural
analysis of new oxides made of
iron/cobalt for energy
conversion
UCBN UCBN
POLTEAU Baptiste 01/10/2012 30/09/2015 Crismat No UCBN
MESOTHERM BENARD Pierre 01/02/2012 31/01/2015 Coria No
Analyse et adaptation
numérique d’une chambre de
combustion centimétrique
INSA Rouen INSA Rouen
TUVECO MARTINEZ ARIA Borja 01/10/2012 30/09/2015 Lomc No
Turbulence thermo‐
hydrodynamique dans le
système de Couette‐Taylor
Université du Havre Universidad de Málaga
(Spain)
OULDARBI Lila 01/10/2013 30/09/2016 Coria No
Development of an
interferometric imaging device
for particle measurement in a
volume. Application to Vortex
Dynamics.
Université de Rouen Université de Rouen
GRARE Stanislas 01/10/2013 30/09/2016 Coria No
Development of digital
holography techniques:
application to vortex dynamics.
Université de Rouen Université de Rouen
LEBON Benoît 01/10/2013 30/09/2016 Lomc No
Etude de la dynamique 3D de
tourbillons par holographie
numérique
Université du Havre Université de Paris‐Sud
Orsay
HELIOS EL HANBALI Sara 23/09/2013 22/09/2016 Crismat No
Design and study of thin layers
made of new hybrides
materials with electric and
optic properties
UCBNUniversité de Dijon
(France)
AFLTEPMAG AL BAALBAKY Ahmed 17/11/2014 16/11/2017 Gpm No
Modélisation sur le transport
et magnétisme de composés
thermoélectriques anistropes
dépourvus de surface de Fermi
et apparentés
Université de Rouen
University of Maine and
Lebanese University
(Beirut)
DRUID BERTHILLIER Frédéric 01/10/2014 30/09/2017 Coria No
Development of femtosecond
laser diagnostics for the study
of catalytic depollution
reaction mechanisms
INSA RouenUniversité d'Orléans
(France)
2012
2011
2013
LABEX
PhD Student 2011‐2014
3D
COLIBRI
ITEM
AAP ProjectRecruitment
typeNAME, Surname Contract Starting
Contract
EndingHost laboratory Research topic
Previous university
Chercheur KHOMENKOVA Larysa 01/02/2012 30/09/2012 CimapGrowth and optical properties of
Si nanostructures
Lashkaryov Institute of
Semiconductor Physics (ISP),
NAS of Ukraine
Chercheur SILAEVA Elena 13/02/2012 12/02/2013 Coria
Modelisation de l'énergie des
ions émis en sonde atomique sur
éclairement laserMoscow State University
(Russia)
Chercheur QIAN Kai 01/04/2013 30/06/2013 Coria
Micro‐photoluminescence
measurements in
nanostructured thin films Shanghai Jiong Tong University
Post‐Doc BRUMA Alina 01/09/2013 31/08/2014 CrismatSTEM/TEM
metallic nanoparticles
National Institute of Research
& Development for Technical
Physics Iaşi (Romania)
Post‐Doc HORVATH Barbara 17/11/2014 16/11/2015 CrismatTEM
nanocompositesNational Institute for Materials
Science (NIMS), Japan
ITEM Chercheur LONNE Quentin 03/03/2014 02/01/2015 Lcmtsynthèse de nanoparticules de
tellurure de Bismuth
Université de
Limoges/Université Paul
Sabatier Toulouse (France)
MATISS Chercheur LACROIX Bertrand 04/01/2012 03/01/2013 CimapStructure atomique et propriétés du
CaF2 dopé Yb pour les applications
laser de puissance Université de Poitiers (France)
MESOTHERM Chercheur OUERDANNE Henni 01/10/2012 31/01/2014 Crismat Thermoelectric system optimization Edimbourg University (UK)
Chercheur NIU Yi‐Shuai 01/01/2012 31/12/2012 Coria
An optimization‐based approach to
detailed chemistry tabulation:
Automated progress variable
definition Université de Rouen (France)
Post‐Doc MERLIN Cindy 01/01/2012 11/05/2012 Lomc
Modélisation, simulation et
optimisation des écoulements en
milieux fibreux : application aux
procédés de mise en œuvre des
composites LCM INSA de Rouen (France)
Chercheur NAWAB Yasir 03/09/2012 31/12/2012 Lomc
Modélisation, simulation et
optimisation des écoulements en
milieux fibreux : application aux
procédés de mise en œuvre des
composites LCM Université de Nantes (France)
SOLAIR Chercheur QIAN Kai 01/04/2012 31/03/2013 CoriaUltrafast lasers featuring
neodymium‐doped fibers emitting
at 900 nm Shanghai Jiong Tong Univ
Chercheur ANISZEWSKI Wojciech 01/10/2013 30/09/2015 Coria
Investigation of Liquid Atomization
Process Using Direct Numerical
Simulation with Multiscale Analysis.
CZESTOCHOWA UNIVERSITY
OF TECHNOLOGY (Poland)
Chercheur SEYCHELLES Fanny 01/10/2013 31/07/2014 CoriaTurbulence
Thermohydrodynamique dans le
système de Couette‐Taylor
Université de Bordeaux
(France)
3D
HELIOS Post‐Doc VUONG Thi Minh Ha 29/04/2013 28/04/2014 LcmtSynthesis of organo‐metallic
sensibilisator of solar cell
Université Paul Sabatier
Toulouse (France)
HELIOS Chercheur VUONG Thi Minh Ha 29/04/2014 27/06/2014 LcmtSynthesis of organo‐metallic
sensibilisator of solar cell
Université Paul Sabatier
Toulouse (France)
LUZ Chercheur ZIANI Ahmed 01/03/2013 28/02/2014 CimapEmission de LUmière « blanche » à
partir de ZnO dopé Université de Rennes (France)
Chercheur YOSHIKAWA Harunori 01/01/2013 31/08/2013 Lomc terres rares et métaux
Université de Paris 6 ( France)
Chercheur KAHOUADJI Lyes 01/09/2013 31/03/2014 Lomc Heat Transfert, numerical simulationUniversité de Paris 6 ( France)
ChercheurSAFDARI SHADLOO
Mostafa01/03/2013 31/05/2014 Coria
Computational Fluid Dynamics,
Heat transfert, Turbulence modelingSabanci University, Istanbul
(Turkey)
CAHAPS Chercheur SAIDANI Ghassen 01/03/2013 28/02/2014 Cimap
Adsorption of polycyclic aromatic
hydrocarbons on soot: production
of benchmark particles and
characterisation by mass
spectrometry Université de Rennes (France)
NANINOX Post‐DocREVATHY RAJAN Prasath
Babu02/06/2013 01/06/2014 Gpm
Influence of nanostructuration on
the evolution under irradiation of
the
microstructure and properties of
austenitic stainless steels thèse Bangalore, Inde
NANOHOLO ChercheurHERNANDEZ MALDONADO
David01/05/2014 30/11/2014 Gpm
Combination of digital holography
and electron tomography for the
metrology of nano‐objects thèse university of cadiz (Spain)
NANOHOLO Chercheur MOUTON Isabelle 04/12/2014 30/04/2015 Gpm
Combination of digital holography
and electron tomography for the
metrology of nano‐objects Université de Rouen (France)
NEOMAP Chercheur FOLCKE Emeric 01/02/2014 31/01/2015 Gpm
Synthèse par voie chimique et
caractérisation de matériaux pour
aimants permanents
nanocomposites Université de Rouen (France)
Chercheur MEZEI Janos Zsolt 17/02/2014 28/02/2015 LomcTheoretical study of electron
induced molecular processes in cold
ionized media Université de Paris 11
Chercheur MOREL Vincent 15/01/2014 15/10/2015 Coria
Nanosecond and ultra‐short laser‐
induced plasmas theoretical and
experimental studies University of Rouen (France)
Chercheur HABOUCHA Adil 01/02/2015 31/01/2016 CoriaUltrafast fiber lasers for material
analysis by LIBS University of Angers (France)
TEPRI Post‐Doc VENTURA Aude 17/02/2014 16/02/2015 LcmtEnergy transfers in polymers under
ionizing radiation
University of Caen Lower‐
Normandy (France)
PICOLIBS
2013
DYTHER2012
LABEX
Research fellows 2011‐2014
TUVECO
OPTI‐GP‐RE
COLIBRI
ASAP
2011
pas de professeur invité sur crédits du LabEx EMC3 sur cette période
LABEX
Visiting scholar 2011‐2014
Project Name, SurnameContract
Starting
Contract
Ending
Host
Laboratory
Internship
titleCurrent position
Previous
University
(postgraduat
e)
Wael ISKANDAR 20/02/2012 19/06/2012 CIMAP thèse CIMAP
Alexandre LEPREVOST 01/03/2012 29/06/2012 CIMAP thèse LPC
Franck NORMAND 01/02/2012 30/06/2012 CORIA
Léa VOIVENEL01/02/2012 30/06/2012
CORIA
thèse
CORIA/SNECMA
Joris MORE‐CHEVALIER 03/01/2012 02/07/2012 CRISMAT thèse CRISMAT
Morgane LACOTTE 01/01/2012 30/06/2012 CRISMAT thèse CRISMAT
Maher MOUNIB 01/03/2012 31/08/2012 GPM thèse GPM
Manon BONVALET 10/02/2012 09/07/2012 GPM thèse GPM
Aurélien PIWTORAK 02/01/2012 01/07/2012 LCS non
Stanislas GRARE 01/02/2013 30/06/2013 CORIA thèse CORIA
Lionel AMOUNIE 01/02/2013 30/06/2013 CORIA poursuite d'étude
Nicolas Maât 04/02/2013 30/06/2013 GPM thèse GPM
Tanguy Bakala 04/02/2013 04/07/2013 GPM non
Leconte Baptiste 01/03/2013 30/06/2013 CIMAP thèse CIMAP
Rudy Delaunay 01/03/2013 30/06/2013 CIMAP thèse CIMAP
Gwladys Mouillard 07/01/2013 05/07/2013 CRISMAT thèse CRISMAT
Gwendoline FLEURIER 07/01/2013 05/07/2013 CRISMAT thèse CRISMATIngrit Carolina CASTELLANOS
CORDEROS19/03/2013 30/09/2013 LCS thèse LCS
projet ASAP LESPARRE Fabien CORIA thèse ParisTech
projet OPTI GP RE MBAKOP Rodrigue CORIA non
projet TUVECO LEI Lei CORIA
projet NANINOX MOISY Florent CIMAP thèse CIMAP
Kolio Raltchev 08/01/2014 07/07/2014 LCS non
Clément Le Guillouzer 20/01/2014 18/07/2014 LCS thèse LCS
Hakim Larabi 03/02/2014 30/06/2014 CORIA thèse CORIA
Viphaphorm Srinavawonys 03/02/2014 30/06/2014 CORIA non
Amélie Rossigny 01/02/2014 30/06/2014 GPM non enseignant
Arnaud Houssaye 13/03/2014 05/08/2014 GPM thèse CIMAP
Clément Dubosq 24/02/2014 24/06/2014 CIMAP thèse CIMAP
Mathieu Mauran 24/02/2014 30/06/2014 CIMAP non
Abdu Salam EL Atem 24/02/2014 24/06/2014 CIMAP thèse CIMAP
Antoine MEYER 10/02/2014 09/07/2014 LOMC thèse LOMC
Rodrigue MBAKOP 01/03/2014 31/07/2014 LOMC non
Bruno Gonano 06/01/2014 04/07/2014 CRISMAT thèse CRISMAT
Rodolphe Macaigne 06/01/2014 04/07/2014 CRISMAT thèse CRISMAT
projet ASAP François Descabannes 30/02/2014 30/06/2014 CORIA nonprojet
MESOTHERM Yann Dufresne 24/03/2014 26/09/2014 CORIA ITA CORIA
Internships granted by LABEX EMC3 over 2011‐2014 period
Projet
pédagogique
2012
Projet
pédagogique
2013
Projet
pédagogique
2014
Liste des brevets pour le laboratoire CRISMATAnnée 2010 à 2015
Numéro dossier
Responsable Scientifique
TypeSous-type
Numéro de dépôt
Titre CommentairePays de dépôt
Numéro de dépôt du brevet
Date de dépôt
EtatGestionnaire
03118-01 GOUPIL Christophe BrevetBrevet prioritaire
10 59650Procédé de détermination de la valeur du facteur de mérited'un matériau thermoélectrique et dispositif de détermination associé
FRANCE 10 59650 23/11/2010 Abandonné CNRS
04520-01 PRALONG Valérie BrevetBrevet prioritaire
11 59592 Nouveau matériau cathodique pour batterie au lithium FRANCE 11 59592 21/10/2011 Abandonné CNRS
04520-01 PRALONG Valérie Brevet Extension EP2012070878 Nouveau matériau cathodique pour batterie au lithium PCT 11 59592 22/10/2012 Abandonné CNRS
04806-01 NOUDEM Jacques BrevetBrevet prioritaire
12 55988Procédé de soudure de pièces en matériau supraconducteur international intermétallique de type MgB2
FRANCE 12 55988 25/06/2012 Abandonné CNRS
07830-01 MARINEL Sylvain en attente en attente en attenteDispositif expérimental pour le traitement thermique par micro-ondes de matériaux métalliques en cavité multimodes à 2.45GHz
dépôt de la demande de brevet par le CNRS prévu le 25/03/2015
CNRS
07407-01 BERNSTEIN Pierre en attente en attente en attenteTransmission de force par un dispositif incluant des supraconducteurs et des systèmes comprenant des aimants permanents
10/02/2015 : Décision de dépôt par le CNRS
CNRS
en att BERNSTEIN Pierre en attente en attente en attente DIP avec METROLAB (2 DIP)Déclaration d'invention en cours de constitution
Total Brevet prioritaire
3
Total Extension 1
Total dossier en attente de décision
3
Années 2011 2012 2013 2014
contrats recherche 1 974 942,07 € 2 797 251,00 € 1 367 615,00 € 1 034 491,00 €
prestation de service 475 202,72 € 122 204,00 € 298 883,26 € 257 930,21 €
aides/subventions
(ANR, FEDER, Régions,
CEA, ONERA, IFP,
Acome…)
13 800 414,79 € 15 018 679,18 € 15 626 635,20 € 3 477 215,63 €
Bilan des contrats des 7 laboratoires