Paul Newhouse
Paul Newhouse
Verified email at
Cited by
Cited by
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
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
Machine learning of optical properties of materials–predicting spectra from images and images from spectra
HS Stein, D Guevarra, PF Newhouse, E Soedarmadji, JM Gregoire
Chemical science 10 (1), 47-55, 2019
High electron mobility W-doped In2O3 thin films by pulsed laser deposition
PF Newhouse, CH Park, DA Keszler, J Tate, PS Nyholm
Applied physics letters 87 (11), 2005
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
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), 2015
Solar fuel photoanodes prepared by inkjet printing of copper vanadates
PF Newhouse, DA Boyd, A Shinde, D Guevarra, L Zhou, E Soedarmadji, ...
Journal of Materials Chemistry A 4 (19), 7483-7494, 2016
Chalcogen-based transparent conductors
J Tate, PF Newhouse, R Kykyneshi, PA Hersh, J Kinney, DH McIntyre, ...
Thin Solid Films 516 (17), 5795-5799, 2008
Analyzing machine learning models to accelerate generation of fundamental materials insights
M Umehara, HS Stein, D Guevarra, PF Newhouse, DA Boyd, JM Gregoire
npj Computational Materials 5 (1), 34, 2019
Thin film preparation and characterization of wide band gap Cu3TaQ4 (Q= S or Se) p-type semiconductors
PF Newhouse, PA Hersh, A Zakutayev, A Richard, HAS Platt, DA Keszler, ...
Thin Solid Films 517 (7), 2473-2476, 2009
High-throughput on-the-fly scanning ultraviolet-visible dual-sphere spectrometer
S Mitrovic, EW Cornell, MR Marcin, RJR Jones, PF Newhouse, SK Suram, ...
Review of Scientific Instruments 86 (1), 2015
Combinatorial optimization of spinel Co 3− x M x O 4 M=(Al, Ga, In) alloyed thin films prepared by ink jet printing: photoelectrochemical, optical, and structural properties
PF Newhouse, BA Parkinson
Journal of Materials Chemistry A 3 (11), 5901-5907, 2015
Pulsed laser deposition of BiCuOSe thin films
A Zakutayev, PF Newhouse, R Kykyneshi, PA Hersh, DA Keszler, J Tate
Applied Physics A 102, 485-492, 2011
Combinatorial alloying improves bismuth vanadate photoanodes via reduced monoclinic distortion
PF Newhouse, D Guevarra, M Umehara, SE Reyes-Lillo, L Zhou, ...
Energy & Environmental Science 11 (9), 2444-2457, 2018
High throughput light absorber discovery, part 2: Establishing structure–band gap energy relationships
SK Suram, PF Newhouse, L Zhou, DG Van Campen, A Mehta, ...
ACS Combinatorial Science 18 (11), 682-688, 2016
Discovery and characterization of a pourbaix-stable, 1.8 eV direct gap bismuth manganate photoanode
PF Newhouse, SE Reyes-Lillo, G Li, L Zhou, A Shinde, D Guevarra, ...
Chemistry of Materials 29 (23), 10027-10036, 2017
Combinatorial screening yields discovery of 29 metal oxide photoanodes for solar fuel generation
L Zhou, A Shinde, D Guevarra, MH Richter, HS Stein, Y Wang, ...
Journal of Materials Chemistry A 8 (8), 4239-4243, 2020
Quaternary oxide photoanode discovery improves the spectral response and photovoltage of copper vanadates
L Zhou, A Shinde, PF Newhouse, D Guevarra, Y Wang, Y Lai, K Kan, ...
Matter 3 (5), 1614-1630, 2020
Synthesis, optical imaging, and absorption spectroscopy data for 179072 metal oxides
HS Stein, E Soedarmadji, PF Newhouse, D Guevarra, JM Gregoire
Scientific data 6 (1), 9, 2019
Multi-modal optimization of bismuth vanadate photoanodes via combinatorial alloying and hydrogen processing
PF Newhouse, D Guevarra, M Umehara, DA Boyd, L Zhou, JK Cooper, ...
Chemical Communications 55 (4), 489-492, 2019
The system can't perform the operation now. Try again later.
Articles 1–20