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Shyam Dwaraknath
Shyam Dwaraknath
Verified email at lbl.gov
Title
Cited by
Cited by
Year
On the use of SRIM for computing radiation damage exposure
RE Stoller, MB Toloczko, GS Was, AG Certain, S Dwaraknath, FA Garner
Nuclear instruments and methods in physics research section B: beam …, 2013
11012013
Accelerating the discovery of materials for clean energy in the era of smart automation
DP Tabor, LM Roch, SK Saikin, C Kreisbeck, D Sheberla, JH Montoya, ...
Nature Reviews Materials 3 (5), 5-20, 2018
4052018
Atomate: A high-level interface to generate, execute, and analyze computational materials science workflows
K Mathew, JH Montoya, A Faghaninia, S Dwarakanath, M Aykol, H Tang, ...
Computational Materials Science 139, 140-152, 2017
1882017
Thermodynamic limit for synthesis of metastable inorganic materials
M Aykol, SS Dwaraknath, W Sun, KA Persson
Science advances 4 (4), eaaq0148, 2018
1572018
High-throughput density-functional perturbation theory phonons for inorganic materials
G Petretto, S Dwaraknath, H PC Miranda, D Winston, M Giantomassi, ...
Scientific data 5 (1), 1-12, 2018
962018
The existence and impact of persistent ferroelectric domains in MAPbI3
LM Garten, DT Moore, SU Nanayakkara, S Dwaraknath, P Schulz, ...
Science advances 5 (1), eaas9311, 2019
632019
Computational approach for epitaxial polymorph stabilization through substrate selection
H Ding, SS Dwaraknath, L Garten, P Ndione, D Ginley, KA Persson
ACS applied materials & interfaces 8 (20), 13086-13093, 2016
632016
Assessing high-throughput descriptors for prediction of transparent conductors
R Woods-Robinson, D Broberg, A Faghaninia, A Jain, SS Dwaraknath, ...
Chemistry of Materials 30 (22), 8375-8389, 2018
472018
Multiple ion beam irradiation for the study of radiation damage in materials
S Taller, D Woodley, E Getto, AM Monterrosa, Z Jiao, O Toader, F Naab, ...
Nuclear Instruments and Methods in Physics Research Section B: Beam …, 2017
402017
Propnet: a knowledge graph for materials science
D Mrdjenovich, MK Horton, JH Montoya, CM Legaspi, S Dwaraknath, ...
Matter 2 (2), 464-480, 2020
282020
The materials project: Accelerating materials design through theory-driven data and tools
A Jain, J Montoya, S Dwaraknath, NER Zimmermann, J Dagdelen, ...
Handbook of Materials Modeling: Methods: Theory and Modeling, 1751-1784, 2020
262020
A graph-based network for predicting chemical reaction pathways in solid-state materials synthesis
MJ McDermott, SS Dwaraknath, KA Persson
Nature communications 12 (1), 1-12, 2021
242021
OPTIMADE, an API for exchanging materials data
CW Andersen, R Armiento, E Blokhin, GJ Conduit, S Dwaraknath, ...
Scientific data 8 (1), 1-10, 2021
222021
A chemically consistent graph architecture for massive reaction networks applied to solid-electrolyte interphase formation
SM Blau, HD Patel, EWC Spotte-Smith, X Xie, S Dwaraknath, KA Persson
Chemical science 12 (13), 4931-4939, 2021
222021
BonDNet: a graph neural network for the prediction of bond dissociation energies for charged molecules
M Wen, SM Blau, EWC Spotte-Smith, S Dwaraknath, KA Persson
Chemical science 12 (5), 1858-1868, 2021
222021
Harnessing the Materials Project for machine-learning and accelerated discovery
W Ye, C Chen, S Dwaraknath, A Jain, SP Ong, KA Persson
MRS Bulletin 43 (9), 664-669, 2018
222018
Development of a multi-layer diffusion couple to study fission product transport in β-SiC
S Dwaraknath, GS Was
Journal of nuclear materials 444 (1-3), 170-174, 2014
192014
Radiation enhanced diffusion of cesium, strontium, and europium in silicon carbide
SS Dwaraknath, GS Was
Journal of Nuclear Materials 474, 76-87, 2016
182016
A framework for quantifying uncertainty in DFT energy corrections
A Wang, R Kingsbury, M McDermott, M Horton, A Jain, SP Ong, ...
Scientific reports 11 (1), 1-10, 2021
172021
The diffusion of cesium, strontium, and europium in silicon carbide
SS Dwaraknath, GS Was
Journal of Nuclear Materials 476, 155-167, 2016
162016
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Articles 1–20