jacky even
Professor INSA Rennes
https://www.insa-rennes.fr/
FOTON Institute (CNRS lab. UMR 6082)
http://foton.cnrs.fr/v2016/
22
Documents
Identifiants chercheurs
- jacky-even
- ResearcherId : C-6212-2008
- 0000-0002-4607-3390
- Google Scholar : https://scholar.google.fr/citations?user=wZSGnjYAAAAJ&hl=fr
- IdRef : 076470482
Site web
- http://www.iufrance.fr/les-membres-de-liuf/membre/1913-jacky-even.html
Présentation
1984-1988: ENS Cachan (now ENS Paris-Saclay): Physics
1987-1988: Agrégation in Physics, Master Degree in Liquid Physics
1989-1992: University Paris VI/ Rennes I, PhD Thesis
1992-1999: Associate Professor (University Rennes I), Habilitation Degree
1999-now: Professor, Institut National des sciences Appliquées (INSA) de Rennes
1999-now: Creation and head of FOTON-INSA simulation team https://www.institut-foton.eu/physique-des-materiaux-et-dispositifs-perovskites/
2006-2009: Head of Materials Science and Nanotechnology Department, INSA Rennes
2010-2012: Director of Education, INSA Rennes
2018-2023: Senior member of IUF (Institut Universitaire de France) (http://www.iufrance.fr/les-membres-de-liuf/membre/1913-jacky-even.html)
2019/2020/2021/2022/2023: Highly Cited Researcher (Clarivate Analytics) https://clarivate.com/highly-cited-researchers/
2022 [Jean-Ricard Prize of the French Physical Society ](https://www.sfpnet.fr/jacky-even-laureat-du-prix-jean-ricard-2022-de-la-sfp)
2023-now: Re-elected Senior member of IUF
2013 : Video of invited presentation about Halide perovskites (in French):[videos-jnpv\_2013](http://webcast.in2p3.fr/videos-jnpv_2013_avancees_recentes_dans_le_domaine_des_perovskites_hybrides_pour_les_applications_photovoltaiques__jacky_even) containing among others: the first theoretical predictions of exciton screening in halide perovskites, importance of spin-orbit coupling, Rashba-Dresselhaus effect, symmetry analyses, first predictions of Kane parameters and results published in J. Even et al, Phys. Rev B 2012, J. Phys. Chem. Lett. 2013, J. Phys. Chem. C 2014, RRL Solar 2014, ChemPhysChem 2014. More presentations (in French) in 2016: https://videosjnpv2016.geeps.centralesupelec.fr/files/hybrides-organiques-perovskites_1.mp4. and 2021: https://videosjnpv2021.geeps.centralesupelec.fr/files/even.mp4
The prediction in 2013 (https://hal.science/hal-04500208) of low exciton binding energy and high effective dielectric constant of primary importance for the perovskite photovoltaic mechanism was finally published in 2014 (Even et al J. Phys. Chem. C 118, 11566, 2014) and exactly checked experimentally in 2015 by H. Snaith and coworkers at LNCMI Toulouse and Oxford University (Miyata et al, Nature Physics 11, 582, 2015)
Selected papers (2016-2023):
H. Tsai et al, Nature 536, 312 (2016)
W Nie et al, Nature Comm. 5, 11574 (2016)
H. Fang et al, Science Adv. 2, e1600534 (2016)
H. Fang et al, Light Science and Appl. 5, e16056 (2016)
A. Neukirch et al, Nano Letters 16, 3809 (2016)
L. Pedesseau et al, ACS Nano 10, 9776 (2016)
J. Even et al, Nanoscale 8, 6222 (2016)
D. Sapori et al, Nanoscale 8, 6369 (2016)
C. Robert et al, Phys. Rev.B 94, 075445 (2016)
J.C. Blancon et al, Science eaal4211 (2017)
M. Fu et al, Nano Letters 17, 2895 (2017)
H. Tsai et al, Adv. Ener. Mat. 7, 1602159 (2017)
C. Soe et al, J. Am. Chem. Soc. 139, 6297 (2017)
L. Mao et al, J. Am. Chem. Soc. 139, 11956 (2017)
S. Yun et al, Ang. Chem. Int. Ed. 56, 15806 (2017)
M.D. Smith et al, Chem. Sci. 8, 1960 (2017)
C.C. Stoumpos et al, Chem Cell 2, 427 (2017)
K. Appavoo et al, Phys. Rev. B 96, 195308 (2017)
H. Tsai et al, Science 360, 67 (2018)
C. Katan et al, Nature Materials 17, 377 (2018)
H. Fang et al, Nature Comm. 9, 243 (2018)
H. Tsai et al, Nature Comm. 9, 2130 (2018)
J.C. Blancon et al, Nature Comm. 9, 2554 (2018)
M. Fu et al, Nature Comm. 9, 3318 (2018)
W. Nie et al, Adv. Mat. 30, 1703879 (2018)
H. Tsai et al, Adv. Mat. 30, 1704217 (2018)
C. Soe et al, Adv. Ener. Mat. 8, 1700979 (2018)
H. Fang et al, Adv. Func. Mat. 28,1800305 (2018)
L. Zhou et al, ACS Energy Lett. 3, 787 (2018)
L. Mao et al, J. Am. Chem. Soc. 140, 3775 (2018)
X. Li et al, J. Am. Chem. Soc. 140, 12226 (2018)
L. Mao et al, J. Am. Chem. Soc. 140, 13078(2018)
M. Kepenekian et al, Nano Letters 18, 5603 (2018)
B. Traore et al, ACS Nano 12, 3321 (2018)
A. Marronnier et al, ACS Nano 12, 3477 (2018)
A. Ferreira et al, Phys. Rev. Lett. 121, 085502 (2018)
J. Leveillee et al, Phys. Rev. Mat. 2, 105406 (2018)
A. Gheno et al, RRL Solar 2, 1800191 (2018)
C. Katan et al, Chem. Rev. 119, 3140 (2019)
P. Tamarat et al, Nature Materials 18, 717 (2019)
C. Wei et al, Nature Comm. 10, 5342 (2019)
J. Leveillée et al, Nano Letters 19, 8732 (2019)
Soe et al, Proc. Nat. Acad. Sci. 116, 58 (2019)
N. Devesa Canicoba et al, ACS Mat. Lett. 1, 633 (2019)
J. M. Hoffman et al, J. Am. Chem. Soc. 141, 10661 (2019)
X. Li et al, J. Am. Chem. Soc. 141, 12880 (2019)
L. Mao et al, Chem Cell 5, 2593 (2019)
J. C. Blancon et al, Nature Nanotechnology,15, 969 (2020)
P. Tamarat et al, Nature Comm., 11, 6001 (2020)
H. Fang et al, Adv. Func. Mat. 29,1907979 (2020)
L. Chen et al, ACS Nano, 14,13127 (2020)
S. Kahman et al, ACS Ener. Lett., 5, 2512 (2020)
E. Kinigstein et al, ACS Mat. Lett. 2, 1360 (2020)
B. Traore et al, ACS Mat. Interf. 12, 6633 (2020)
C. Quarti et al, J. Phys. Mat. 3, 042001 (2020)
X. Fu et al, J. Am. Chem. Soc. 142, 4008 (2020)
T. Schmitt et al, J. Am. Chem. Soc. 142, 5060 (2020)
X. Li et al, J. Am. Chem. Soc. 142, 6625 (2020)
L. Mao et al, J. Am. Chem. Soc. 142, 8342 (2020)
I. Spanopoulos et al, J. Am. Chem. Soc. 142, 9028 (2020)
X. Li et al, J. Am. Chem. Soc. 142, 11482 (2020)
G. Roma et al, Phys. Rev. Mat. 4, 092402 (2020)
A. Ferreira et al, Comm. Phys. 3, 48 (2020)
F. Liu et al, Nature Comm., 12, 673 (2021)
S. Sidhik et al, Adv. Mat. 2007176 (2021)
A. Torma et al, ACS Nano 15, 20550 (2021)
S. Sidhik et al, Cell Rep. Phys. Sci. 2, 100601 (2021)
V. Diez‐cabanes et al, Adv. Opt. Mat., 2001832 (2021)
B. Song et al, ACS Mat. Lett. 3, 148 (2021)
F. Ledee et al, Materials Horizons 8,1547 (2021)
L. Gao et al, J. Am. Chem. Soc. 143, 12063 (2021)
S. Sidhik et al, Science 377, 1425 (2022)
Q. Akkerman et al, Science 377, 1406 (2022)
W. Li et al, Nature Nanotechnology 17, 45 (2022)
S. Cuthriell et al, Adv. Mat. 2202709 (2022)
Y. Qin et al, Adv. Mat. 2201666 (2022)
B. Traore et al, ACS. Ener. Lett. 7, 349 (2022)
L. Chen et al, Adv. Sci. 9, 2101661 (2022)
X. Li et al, J. Am. Chem. Soc. 144, 3902 (2022)
E. Vasileiadou et al, J. Am. Chem. Soc. 144, 6390 (2022)
B. Hehlen et al, Phys. Rev. B 105, 024306 (2022)
R. Nazarov et al, Phys. Rev. B 105, 245202 (2022)
L. Chen et al, Phys. Rev. B 106, 165310 (2022)
B. Traore et al, Phys. Rev. Mat. 6, 014604 (2022)
B. Cucco et al, RRL Solar 6, 2200718 (2022)
H. Zhang et al, Nature Physics, 19, 545 (2023)
J. Hou et al, Nature Synth., DOI : 10.1038/s44160-023-00422-3
P. Tamarat et al, Nature Comm., 14, 229 (2023)
A. Fehr et al, Nature Comm., 14, 3797 (2023)
S. Liu et al, Sci. Adv., 9, eadh2255 (2023)
C. Zhu et al, Adv. Mat. 2208354 (2023)
A. Abhervé et al, Adv. Mat. 2305784 (2023)
I. Metcalf et al, Chem. Rev., 123, 9565 (2023)
D. Dirin et al, Nano Letters (2023)
M. Zacharias et al, Phys. Rev. B, 108, 035155 (2023)
M. Zacharias et al, npj Comp. Mat., 9, 153 (2023)
P. Fu et al, J. Am. Chem. Soc. 145, 15997 (2023)
Z.G. Li et al, ACS Ener.Lett., 8, 3016 (2023)
B. Cucco et al, ACS. Mat. Lett. 5, 52 (2023)
C. Quarti et al, Adv. Opt. Mat. 2202801 (2023)
Z. Tang et al, Adv. Opt. Mat. 2301282 (2023)
A. Matuhina et al, Nanoscale, 15, 14764 (2023)
P. Basera et al, Nanoscale, 15, 11884 (2023)
Book Chapters (J. Even et al) in :
"Unconventional Thin Film Photovoltaics", RCS Publishing (2016)
"Semiconductor Nanocrystals and Metal Nanoparticles: Physical Properties and Device Applications", CRC Press (2016)
"Theoretical Modeling of Organohalide Perovskites for Photovoltaic Appl.", CRC Press (2017)
"Halide Perovskites - Photovoltaics, Light Emitting Devices and Beyond", Wiley (2018)
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Composition dependent nature of the fundamental optical transition in (In,Ga)As/GaP quantum dots26th International Conference on Indium Phosphide and Related Materials (IPRM 2014), May 2014, Montpellier, France. pp.Th-B1-2, ⟨10.1109/ICIPRM.2014.6880555⟩
Communication dans un congrès
hal-01114877v1
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gamma-X competition for the optical transition of (In,Ga)As(N)/GaP quantum dots (QDs)European Materials research society meeting EMRS 2013, May 2013, Strasbourg, France
Communication dans un congrès
hal-00918730v1
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Boîtes quantiques semi-conductrices : relation entre morphologie, structure électronique et propriétés optiquesJournées Nanosciences et Nanotechnologies du Nord Ouest 2013 (J2NO 2013), Nov 2013, Rennes, France
Communication dans un congrès
hal-00918787v1
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Intégration optique par croissance directe de nanostructures III-V sur silicium14èmes Journées Nano, Micro et Optoélectronique (JNMO), May 2013, Evian, France
Communication dans un congrès
hal-00918745v1
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GaAsPN compounds for Si photonicsInternational Workshop "Silicon & Photonics", Jun 2013, Rennes, France
Communication dans un congrès
hal-00918743v1
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Γ-X competition in (In,Ga)As/GaP quantum dots (QDs) : effect of QD size and Indium compositioneuro-MBE conference, Mar 2013, Levi, Finland
Communication dans un congrès
hal-00918669v1
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Nature of the optical transition in (In,Ga)As(N)/GaP quantum dots (QDs): effect of QD size, indium composition and nitrogen incorporationCompound semiconductors week, IPRM, 2013, May 2013, Kobe, Japan
Communication dans un congrès
hal-00918734v1
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Optical and structural properties of (In,Ga)As/GaP quantum dots : C2 to C2v symmetry transition during the ripening processinternational conference on MBE, 2012, Nara, Japan
Communication dans un congrès
hal-00726776v1
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Coherent integration of photonics on silicon through the growth of nanostructures on GaP/SiPhotonics west 2012, Jan 2012, San Fransisco, United States. pp.82681H, ⟨10.1117/12.910279⟩
Communication dans un congrès
hal-00654337v1
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(In,Ga)As/GaP quantum dots for monolithic integration on silicon31st International Conference on the Physics of Semiconductors (ICPS 2012), Jul 2012, Zurich, Switzerland
Communication dans un congrès
hal-00726878v1
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coherent integration of photonics on silicon through the growth of GaP/SiTechnical Meeting of Sandie European Network of Excellence, 2012, Berlin, Germany
Communication dans un congrès
hal-00788526v1
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Theoretical and experimental study of (In,Ga)As/GaP quantum dotsInternational Conference on Superlattices, Nanostructures, and Nanodevices (ICSNN 2012), Jul 2012, Dresden, Germany. pp.643, ⟨10.1186/1556-276X-7-643⟩
Communication dans un congrès
hal-00726861v1
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Développement d'un laser sur silicium dans l'approche pseudomorphiqueJournées nationales de l'optique guidée, 2012, Lyon, France
Communication dans un congrès
hal-00788434v1
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Carrier injection in GaAsP(N)/GaPN Quantum Wells on SiliconCompound Semiconductor Week 2011 - 23rd International Conference on Indium Phosphide and Related Materials (IPRM 2011), May 2011, Berlin, Germany. pp.1
Communication dans un congrès
hal-00654285v1
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Structural characterisation of GaP/Si nanolayersEuropean Materials Research Society 2011, May 2011, Strasbourg, France
Communication dans un congrès
hal-00654330v1
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Croissance hétérogène de semi-conducteurs III-V sur silicium : vers l'optoélectronique sur siliciumSéminaire PONANT 2010, Jul 2010, Rennes, France. pp.9-11
Communication dans un congrès
hal-00504506v1
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Nature of the optical transition in (In,Ga)As(N)/GaP quantum dots (QDs): effect of QD size, indium composition and nitrogen incorporation25th International Conference on Indium Phosphide and Related Materials (IPRM2013), May 2013, Kobe, Japan. IEEE (ISSN: 1092-8669 ; e-ISBN: 978-1-4673-6131-6 ; Print ISBN: 978-1-4673-6130-9), IEEE Xplore Digital Library, pp.1-2, 2013, International Conference on Indium Phosphide and Related Materials (IPRM), 2013. ⟨10.1109/ICIPRM.2013.6562587⟩
Poster de conférence
hal-00918662v1
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