Christophe Bichara
Christophe Bichara
Centre Interdisciplinaire de Nanoscience de Marseille - CINaM - CNRS and AMU
Verified email at
Cited by
Cited by
Current understanding of the growth of carbon nanotubes in catalytic chemical vapour deposition
V Jourdain, C Bichara
Carbon 58, 2-39, 2013
Carbon nanotubes and related nanomaterials: critical advances and challenges for synthesis toward mainstream commercial applications
R Rao, CL Pint, AE Islam, RS Weatherup, S Hofmann, ER Meshot, F Wu, ...
ACS nano 12 (12), 11756-11784, 2018
Incipient metals: functional materials with a unique bonding mechanism
M Wuttig, VL Deringer, X Gonze, C Bichara, JY Raty
Advanced materials 30 (51), 1803777, 2018
Aging mechanisms in amorphous phase-change materials
JY Raty, W Zhang, J Luckas, C Chen, R Mazzarello, C Bichara, M Wuttig
Nature communications 6 (1), 1-8, 2015
Understanding the nucleation mechanisms of carbon nanotubes in catalytic chemical vapor deposition
H Amara, C Bichara, F Ducastelle
Physical Review Letters 100 (5), 056105, 2008
Tight-binding potential for atomistic simulations of carbon interacting with transition metals: Application to the Ni-C system
H Amara, JM Roussel, C Bichara, JP Gaspard, F Ducastelle
Physical Review B 79 (1), 014109, 2009
Evidence of correlation between catalyst particles and the single-wall carbon nanotube diameter: a first step towards chirality control
MFC Fiawoo, AM Bonnot, H Amara, C Bichara, J Thibault-Pénisson, ...
Physical review letters 108 (19), 195503, 2012
Peierls instabilities in covalent structures I. Electronic structure, cohesion and the Z= 8–N rule
JP Gaspard, A Pellegatti, F Marinelli, C Bichara
Philosophical Magazine B 77 (3), 727-744, 1998
Nucleation and growth of single-walled nanotubes: the role of metallic catalysts
J Gavillet, J Thibault, O Stephan, H Amara, A Loiseau, C Bichara, ...
Journal of nanoscience and nanotechnology 4 (4), 346-359, 2004
Rigidity transition in materials: hardness is driven by weak atomic constraints
M Bauchy, MJA Qomi, C Bichara, FJ Ulm, RJM Pellenq
Physical review letters 114 (12), 125502, 2015
Importance of carbon solubility and wetting properties of nickel nanoparticles for single wall nanotube growth
M Diarra, A Zappelli, H Amara, F Ducastelle, C Bichara
Physical Review Letters 109 (18), 185501, 2012
Interdependency of subsurface carbon distribution and graphene–catalyst interaction
RS Weatherup, H Amara, R Blume, B Dlubak, BC Bayer, M Diarra, ...
Journal of the American Chemical Society 136 (39), 13698-13708, 2014
Formation of carbon nanostructures on nickel surfaces: A tight-binding grand canonical Monte Carlo study
H Amara, C Bichara, F Ducastelle
Physical Review B 73 (11), 113404, 2006
Nanoscale structure of cement: viewpoint of rigidity theory
M Bauchy, MJ Abdolhosseini Qomi, C Bichara, FJ Ulm, RJM Pellenq
The Journal of Physical Chemistry C 118 (23), 12485-12493, 2014
Understanding amorphous phase-change materials from the viewpoint of Maxwell rigidity
M Micoulaut, JY Raty, C Otjacques, C Bichara
Physical Review B 81 (17), 174206, 2010
Evidence of a reentrant Peierls distortion in liquid GeTe
JY Raty, V Godlevsky, P Ghosez, C Bichara, JP Gaspard, JR Chelikowsky
Physical review letters 85 (9), 1950, 2000
Atomistic modelling of CVD synthesis of carbon nanotubes and graphene
JA Elliott, Y Shibuta, H Amara, C Bichara, EC Neyts
Nanoscale 5 (15), 6662-6676, 2013
Early stages in the nucleation process of carbon nanotubes
M Moors, H Amara, T Visart de Bocarmé, C Bichara, F Ducastelle, ...
Acs Nano 3 (3), 511-516, 2009
Properties of liquid group-V elements: A numerical tight-binding simulation
C Bichara, A Pellegatti, JP Gaspard
Physical Review B 47 (9), 5002, 1993
Nickel-assisted healing of defective graphene
S Karoui, H Amara, C Bichara, F Ducastelle
ACS nano 4 (10), 6114-6120, 2010
The system can't perform the operation now. Try again later.
Articles 1–20