Empirical potential for hydrocarbons for use in simulating the chemical vapor deposition of diamond films DW Brenner Physical review B 42 (15), 9458, 1990 | 5509 | 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 | 4569 | 2002 |
Energetics of nanoscale graphitic tubules DH Robertson, DW Brenner, JW Mintmire Physical Review B 45 (21), 12592, 1992 | 1174 | 1992 |
Carbon nanostructures OA Shenderova, VV Zhirnov, DW Brenner Critical reviews in solid state and material sciences 27 (3-4), 227-356, 2002 | 1142 | 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 | 863 | 2018 |
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 | 839 | 2002 |
Handbook of nanoscience, engineering, and technology WA Goddard III, D Brenner, SE Lyshevski, GJ Iafrate CRC press, 2002 | 695 | 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 | 635 | 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 | 594 | 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 | 512 | 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 | 447 | 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 | 420 | 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 | 327 | 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 | 316 | 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 | 300 | 2006 |
Influence of chemisorption on the thermal conductivity of single-wall carbon nanotubes CW Padgett, DW Brenner Nano Letters 4 (6), 1051-1053, 2004 | 287 | 2004 |
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 | 279 | 1992 |
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 | 278 | 1999 |
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 | 276 | 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 | 259 | 1991 |