Articoli con mandati relativi all'accesso pubblico - David A. DraboldUlteriori informazioni
Non disponibili pubblicamente: 3
Ab initio simulation of amorphous materials
R Thapa, DA Drabold
Atomistic Simulations of Glasses: Fundamentals and Applications, 30-59, 2022
Mandati: US National Science Foundation
Self-assembly and the properties of micro-mesoporous carbon
C Ugwumadu, R Thapa, K Nepal, A Gautam, Y Al-Majali, J Trembly, ...
Journal of Chemical Theory and Computation 20 (4), 1753-1762, 2023
Mandati: US National Science Foundation
Modeling of Glasses: Electronic Conduction Mechanisms in GeSe3:Ag and Al2O3:Cu
KN Subedi, K Prasai, DA Drabold
THE WORLD SCIENTIFIC REFERENCE OF AMORPHOUS MATERIALS: Structure, Properties …, 2021
Mandati: US National Science Foundation
Disponibili pubblicamente: 48
Origins of structural and electronic transitions in disordered silicon
VL Deringer, N Bernstein, G Csányi, C Ben Mahmoud, M Ceriotti, ...
Nature 589 (7840), 59-64, 2021
Mandati: US National Science Foundation, Swiss National Science Foundation, US …
Advances and applications in the FIREBALL ab initio tight‐binding molecular‐dynamics formalism
JP Lewis, P Jelínek, J Ortega, AA Demkov, DG Trabada, B Haycock, ...
physica status solidi (b) 248 (9), 1989-2007, 2011
Mandati: Government of Spain
Radiation shielding properties of bismuth borate glasses doped with different concentrations of cadmium oxides
YS Alajerami, D Drabold, MHA Mhareb, KLA Cimatu, G Chen, ...
Ceramics International 46 (8), 12718-12726, 2020
Mandati: US National Science Foundation
Evolution of amorphous carbon across densities: An inferential study
B Bhattarai, A Pandey, DA Drabold
Carbon 131, 168-174, 2018
Mandati: US National Science Foundation
Inversion of diffraction data for amorphous materials
A Pandey, P Biswas, DA Drabold
Scientific Reports 6 (1), 33731, 2016
Mandati: US National Science Foundation
Quantifying chemical structure and machine‐learned atomic energies in amorphous and liquid silicon
N Bernstein, B Bhattarai, G Csányi, DA Drabold, SR Elliott, VL Deringer
Angewandte Chemie 131 (21), 7131-7135, 2019
Mandati: US National Science Foundation, US Department of Defense, UK Engineering and …
Electrons and phonons in amorphous semiconductors
K Prasai, P Biswas, DA Drabold
Semiconductor Science and Technology 31 (7), 073002, 2016
Mandati: US National Science Foundation
Physical, structural, and shielding properties of cadmium bismuth borate-based glasses
YS Alajerami, DA Drabold, MHA Mhareb, KN Subedi, KLA Cimatu, ...
Journal of Applied Physics 127 (17), 2020
Mandati: US National Science Foundation
High precision detection of change in intermediate range order of amorphous zirconia-doped tantala thin films due to annealing
K Prasai, J Jiang, A Mishkin, B Shyam, S Angelova, R Birney, DA Drabold, ...
Physical review letters 123 (4), 045501, 2019
Mandati: US National Science Foundation, US Department of Energy, Gordon and Betty …
Amorphous carbon at low densities: An ab initio study
B Bhattarai, DA Drabold
Carbon 115, 532-538, 2017
Mandati: US National Science Foundation
Large and realistic models of amorphous silicon
D Igram, B Bhattarai, P Biswas, DA Drabold
Journal of Non-Crystalline Solids 492, 27-32, 2018
Mandati: US National Science Foundation
Amorphous graphene: a constituent part of low density amorphous carbon
B Bhattarai, P Biswas, R Atta-Fynn, DA Drabold
Physical Chemistry Chemical Physics 20 (29), 19546-19551, 2018
Mandati: US National Science Foundation
Ab Initio Simulation of Amorphous Graphite
R Thapa, C Ugwumadu, K Nepal, J Trembly, DA Drabold
Physical Review Letters 128 (23), 236402, 2022
Mandati: US National Science Foundation, US Department of Energy
Realistic inversion of diffraction data for an amorphous solid: The case of amorphous silicon
A Pandey, P Biswas, B Bhattarai, DA Drabold
Physical Review B 94 (23), 235208, 2016
Mandati: US National Science Foundation
Vibrations in amorphous silica
B Bhattarai, DA Drabold
Journal of Non-Crystalline Solids 439, 6-14, 2016
Mandati: US National Science Foundation
Structural origins of electronic conduction in amorphous copper-doped alumina
KN Subedi, K Prasai, MN Kozicki, DA Drabold
Physical Review Materials 3 (6), 065605, 2019
Mandati: US National Science Foundation
Electronic transport in copper–graphene composites
KN Subedi, K Nepal, C Ugwumadu, K Kappagantula, DA Drabold
Applied Physics Letters 122 (3), 2023
Mandati: US National Science Foundation, US Department of Energy
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