Vous êtes ici : Accueil > L'UMR > Vincent Renard
Publié le 20 décembre 2021
Assistant professor at Grenoble University.

Team activity

Research Topics
Mesoscopic physics with emphasis on interaction effects in low dimensional systems (two-dimensional electron systems,quantum point contacts). Low temperature scanning tunneling microscope (superconductivity induced by proximity effect). Material synthesis (Graphene, Silicon nanowires). More details may be found at our group site or research gate.

2019                 Habilitation   -   Physics
2011 - present  Assistant professor at Grenoble University    -   Low temperature STM
2010 - 2011      Postdoc at Néel Institut   -   Graphene growth
2008 - 2010      Postdoc at CEA Leti    -    Silicon nanowire growth
2006 - 2008      Postdoc at NTT (BRL) and GHMFL Grenoble - Interaction effects in quantum point contacts
2002 - 2005      Phd at GHMFL Grenoble - Interaction effects in 2D electron systems


Claude Chapelier (CEA/IRIG Grenoble, FRANCE)
Johann Coraux (CNRS, Grenoble, FRANCE)
Clément Dutreix (CNRS Loma, Bordeaux, FRANCE)
Francisco Guinea (IMDEA, Madrid, SPAIN)
Benjamin Piot (GHMFL, Grenoble, FRANCE)
Kei Takashina (Bath University, Bath, UK)
Guy Trambly de Laissardière (Université Cergy Pontoise, FRANCE)
Clemens Winkelmann (CNRS, Grenoble, FRANCE)

Selected Publications 

• Heterostrain determines the flat bands of magic angle twisted graphene layers.
F. Mesple, A. Missaoui, T. Cea, L. Huder, F. Guinea, G. Trambly de Laissardière, C. Chapelier, and V. T. Renard
Phys. Rev. Lett., 127, 126405 (2021) ArXiv

• Measuring graphene's Berry phase from wavefront dislocations in Friedel oscillations.
C. Dutreix, H. Gonzales-Herrero, I. Brihuega, M. Katsnelson, C. Chapelier, and V. T. Renard
Nature, 574, 219–222 (2019) ArXiv

• Electronic spectrum of twisted graphene layers under heterostrain.
L. Huder, A. Artaud, T. Le Quang, G. Trambly de Laissardière, A. G. M. Jansen, G. Lapertot, C. Chapelier, and V. T. Renard
Phys. Rev. Lett., 120, 156405 (2018) ArXiv

• Valley polarization assisted spin polarization in two dimensions.
V. T. Renard, B. A. Piot, X. Waintal, G. Fleury, D. Cooper, Y. Niida, D. S. D. Tregurtha, A. Fujiwara, Y. Hirayama and K. Takashina
Nature communications, 6, 7230 (2015). ArXiv

• Catalyst preparation for CMOS-compatible silicon nanowire synthesis.
V. T. Renard, M. Jublot, P. Gergaud, P. Cherns, D. Rouchon, A. Chabli, V. Jousseaume
Nature Nanotechnology, 4, 654 (2009) ArXiv (See also the video)