D W Brenner
D W Brenner
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Cited by
Empirical potential for hydrocarbons for use in simulating the chemical vapor deposition of diamond films
DW Brenner
Physical review B 42 (15), 9458, 1990
A second-generation reactive empirical bond order (REBO) potential energy expression for hydrocarbons
DW Brenner, OA Shenderova, JA Harrison, SJ Stuart, B Ni, SB Sinnott
Journal of Physics: Condensed Matter 14 (4), 783, 2002
Energetics of nanoscale graphitic tubules
DH Robertson, DW Brenner, JW Mintmire
Physical Review B 45 (21), 12592, 1992
Carbon nanostructures
OA Shenderova, VV Zhirnov, DW Brenner
Critical reviews in solid state and material sciences 27 (3-4), 227-356, 2002
Molecular simulation of the influence of chemical cross-links on the shear strength of carbon nanotube− polymer interfaces
SJV Frankland, A Caglar, DW Brenner, M Griebel
The Journal of Physical Chemistry B 106 (12), 3046-3048, 2002
High-entropy high-hardness metal carbides discovered by entropy descriptors
P Sarker, T Harrington, C Toher, C Oses, M Samiee, JP Maria, ...
Nature communications 9 (1), 4980, 2018
Handbook of nanoscience, engineering, and technology
WA Goddard III, D Brenner, SE Lyshevski, GJ Iafrate
CRC press, 2002
The stress–strain behavior of polymer–nanotube composites from molecular dynamics simulation
SJV Frankland, VM Harik, GM Odegard, DW Brenner, TS Gates
Composites Science and Technology 63 (11), 1655-1661, 2003
Phase stability and mechanical properties of novel high entropy transition metal carbides
TJ Harrington, J Gild, P Sarker, C Toher, CM Rost, OF Dippo, C McElfresh, ...
Acta Materialia 166, 271-280, 2019
Mechanical and electrical properties of nanotubes
J Bernholc, D Brenner, M Buongiorno Nardelli, V Meunier, C Roland
Annual Review of Materials Research 32 (1), 347-375, 2002
Atomistic modeling of the fracture of polycrystalline diamond
OA Shenderova, DW Brenner, A Omeltchenko, X Su, LH Yang
Physical Review B 61 (6), 3877, 2000
Charge‐induced disorder controls the thermal conductivity of entropy‐stabilized oxides
JL Braun, CM Rost, M Lim, A Giri, DH Olson, GN Kotsonis, G Stan, ...
Advanced materials 30 (51), 1805004, 2018
Molecular-dynamics simulations of atomic-scale friction of diamond surfaces
JA Harrison, CT White, RJ Colton, DW Brenner
Physical Review B 46 (15), 9700, 1992
Colloidal stability of modified nanodiamond particles
N Gibson, O Shenderova, TJM Luo, S Moseenkov, V Bondar, A Puzyr, ...
Diamond and Related materials 18 (4), 620-626, 2009
Carbon nanostructures for advanced composites
Y Hu, OA Shenderova, Z Hu, CW Padgett, DW Brenner
Reports on Progress in Physics 69 (6), 1847, 2006
Influence of chemisorption on the thermal conductivity of single-wall carbon nanotubes
CW Padgett, DW Brenner
Nano Letters 4 (6), 1051-1053, 2004
Predictions of enhanced chemical reactivity at regions of local conformational strain on carbon nanotubes: kinky chemistry
D Srivastava, DW Brenner, JD Schall, KD Ausman, MF Yu, RS Ruoff
The Journal of Physical Chemistry B 103 (21), 4330-4337, 1999
Molecular dynamics simulations of dimer opening on a diamond {001}(2x1) surface
BJ Garrison, EJ Dawnkaski, D Srivastava, DW Brenner
Science 255 (5046), 835-838, 1992
Mechanical properties of nanotubule fibers and composites determined from theoretical calculations and simulations
SB Sinnott, OA Shenderova, CT White, DW Brenner
Carbon 36 (1-2), 1-9, 1998
Molecular dynamics simulations of the nanometer-scale mechanical properties of compressed Buckminsterfullerene
DW Brenner, JA Harrison, CT White, RJ Colton
Thin Solid Films 206 (1-2), 220-223, 1991
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