John M. Gregoire
John M. Gregoire
Verified email at - Homepage
Cited by
Cited by
Lithium-assisted plastic deformation of silicon electrodes in lithium-ion batteries: a first-principles theoretical study
K Zhao, WL Wang, J Gregoire, M Pharr, Z Suo, JJ Vlassak, E Kaxiras
Nano letters 11 (7), 2962-2967, 2011
The 2019 materials by design roadmap
K Alberi, MB Nardelli, A Zakutayev, L Mitas, S Curtarolo, A Jain, M Fornari, ...
Journal of Physics D: Applied Physics 52 (1), 013001, 2018
Fulfilling the promise of the materials genome initiative with high-throughput experimental methodologies
ML Green, CL Choi, JR Hattrick-Simpers, AM Joshi, I Takeuchi, SC Barron, ...
Applied Physics Reviews 4 (1), 011105, 2017
The Evolution of the Polycrystalline Copper Surface, First to Cu(111) and Then to Cu(100), at a Fixed CO2RR Potential: A Study by Operando EC-STM
YG Kim, JH Baricuatro, A Javier, JM Gregoire, MP Soriaga
Langmuir 30 (50), 15053-15056, 2014
Discovering Ce-rich oxygen evolution catalysts, from high throughput screening to water electrolysis
JA Haber, Y Cai, S Jung, C Xiang, S Mitrovic, J Jin, AT Bell, JM Gregoire
Energy & Environmental Science 7 (2), 682-688, 2014
Solar fuels photoanode materials discovery by integrating high-throughput theory and experiment
Q Yan, J Yu, SK Suram, L Zhou, A Shinde, PF Newhouse, W Chen, G Li, ...
Proceedings of the National Academy of Sciences 114 (12), 3040-3043, 2017
Inverse design of solid-state materials via a continuous representation
J Noh, J Kim, HS Stein, B Sanchez-Lengeling, JM Gregoire, ...
Matter 1 (5), 1370-1384, 2019
Electrochemical stability of metastable materials
AK Singh, L Zhou, A Shinde, SK Suram, JH Montoya, D Winston, ...
Chemistry of Materials 29 (23), 10159-10167, 2017
An Operando Investigation of (Ni–Fe–Co–Ce)Ox System as Highly Efficient Electrocatalyst for Oxygen Evolution Reaction
M Favaro, WS Drisdell, MA Marcus, JM Gregoire, EJ Crumlin, JA Haber, ...
ACS Catalysis 7 (2), 1248-1258, 2017
Scanning droplet cell for high throughput electrochemical and photoelectrochemical measurements
JM Gregoire, C Xiang, X Liu, M Marcin, J Jin
Review of Scientific Instruments 84 (2), 024102, 2013
High throughput light absorber discovery, part 1: an algorithm for automated tauc analysis
SK Suram, PF Newhouse, JM Gregoire
ACS combinatorial science 18 (11), 673-681, 2016
High Throughput Discovery of Solar Fuels Photoanodes in the CuO–V2O5 System
L Zhou, Q Yan, A Shinde, D Guevarra, PF Newhouse, ...
Advanced Energy Materials 5 (22), 1500968, 2015
Perspective: composition–structure–property mapping in high-throughput experiments: turning data into knowledge
JR Hattrick-Simpers, JM Gregoire, AG Kusne
APL Materials 4 (5), 053211, 2016
Robust and synthesizable photocatalysts for CO2 reduction: a data-driven materials discovery
AK Singh, JH Montoya, JM Gregoire, KA Persson
Nature communications 10 (1), 1-9, 2019
Ethanol-promoted high-yield growth of few-walled carbon nanotubes
Y Zhang, JM Gregoire, RB Van Dover, AJ Hart
The Journal of Physical Chemistry C 114 (14), 6389-6395, 2010
Multiphase nanostructure of a quinary metal oxide electrocatalyst reveals a new direction for OER electrocatalyst design
JA Haber, E Anzenburg, J Yano, C Kisielowski, JM Gregoire
Advanced Energy Materials 5 (10), 1402307, 2015
High‐Throughput Mapping of the Electrochemical Properties of (Ni‐Fe‐Co‐Ce)Ox Oxygen‐Evolution Catalysts
JA Haber, C Xiang, D Guevarra, S Jung, J Jin, JM Gregoire
ChemElectroChem 1 (3), 524-528, 2014
Progress and prospects for accelerating materials science with automated and autonomous workflows
HS Stein, JM Gregoire
Chemical Science 10 (42), 9640-9649, 2019
Mn2V2O7: An Earth Abundant Light Absorber for Solar Water Splitting
Q Yan, G Li, PF Newhouse, J Yu, KA Persson, JM Gregoire, JB Neaton
Advanced Energy Materials 5 (8), 1401840, 2015
High-throughput bubble screening method for combinatorial discovery of electrocatalysts for water splitting
C Xiang, SK Suram, JA Haber, DW Guevarra, E Soedarmadji, J Jin, ...
ACS combinatorial science 16 (2), 47-52, 2014
The system can't perform the operation now. Try again later.
Articles 1–20