Joshua Schrier
Joshua Schrier
Kim B. and Stephen E. Bepler Chair Professor of Chemistry, Fordham University
Verified email at - Homepage
Cited by
Cited by
Machine-learning-assisted materials discovery using failed experiments
P Raccuglia, KC Elbert, PDF Adler, C Falk, MB Wenny, A Mollo, M Zeller, ...
Nature 533 (7601), 73-76, 2016
Optical properties of ZnO/ZnS and ZnO/ZnTe heterostructures for photovoltaic applications
J Schrier, DO Demchenko, AP Alivisatos
Nano letters 7 (8), 2377-2382, 2007
Machine learning: new ideas and tools in environmental science and engineering
S Zhong, K Zhang, M Bagheri, JG Burken, A Gu, B Li, X Ma, BL Marrone, ...
Environmental Science & Technology 55 (19), 12741-12754, 2021
From computational discovery to experimental characterization of a high hole mobility organic crystal
AN Sokolov, S Atahan-Evrenk, R Mondal, HB Akkerman, ...
Nature communications 2 (1), 437, 2011
Helium separation using porous graphene membranes
J Schrier
The Journal of Physical Chemistry Letters 1 (15), 2284-2287, 2010
Autonomous experimentation systems for materials development: A community perspective
E Stach, B DeCost, AG Kusne, J Hattrick-Simpers, KA Brown, KG Reyes, ...
Matter 4 (9), 2702-2726, 2021
Anthropogenic biases in chemical reaction data hinder exploratory inorganic synthesis
X Jia, A Lynch, Y Huang, M Danielson, I Lang’at, A Milder, AE Ruby, ...
Nature 573 (7773), 251-255, 2019
Carbon dioxide separation with a two-dimensional polymer membrane
J Schrier
ACS applied materials & interfaces 4 (7), 3745-3752, 2012
Robot-accelerated perovskite investigation and discovery
Z Li, MA Najeeb, L Alves, AZ Sherman, V Shekar, P Cruz Parrilla, ...
Chemistry of Materials 32 (13), 5650-5663, 2020
Helium tunneling through nitrogen-functionalized graphene pores: pressure-and temperature-driven approaches to isotope separation
AW Hauser, J Schrier, P Schwerdtfeger
The Journal of Physical Chemistry C 116 (19), 10819-10827, 2012
Fluorinated and nanoporous graphene materials as sorbents for gas separations
J Schrier
ACS Applied Materials & Interfaces 3 (11), 4451-4458, 2011
Electronic Transport, Structure, and Energetics of Endohedral Gd@C82 Metallofullerenes
L Senapati, J Schrier, KB Whaley
Nano Letters 4 (11), 2073-2078, 2004
Theoretical Characterization of the Air-Stable, High-Mobility Dinaphtho[2,3-b:2′3′-f]thieno[3,2-b]-thiophene Organic Semiconductor
RS Sánchez-Carrera, S Atahan, J Schrier, A Aspuru-Guzik
The Journal of Physical Chemistry C 114 (5), 2334-2340, 2010
Materials Acceleration Platform: Accelerating Advanced Energy Materials Discovery by Integrating High-Throughput Methods and Artificial Intelligence.
A Aspuru-Guzik, K Persson
Mission Innovation, 2018
Thermally-driven isotope separation across nanoporous graphene
J Schrier, J McClain
Chemical Physics Letters 521, 118-124, 2012
Experiment Specification, Capture and Laboratory Automation Technology (ESCALATE): a software pipeline for automated chemical experimentation and data management
IM Pendleton, G Cattabriga, Z Li, MA Najeeb, SA Friedler, AJ Norquist, ...
MRS Communications 9 (3), 846-859, 2019
Mechanical and electrical properties of CdTe tetrapods studied by atomic force microscopy
L Fang, JY Park, Y Cui, P Alivisatos, J Shcrier, B Lee, LW Wang, ...
The Journal of chemical physics 127 (18), 2007
Bio-Inspired electroactive organic molecules for aqueous redox flow batteries. 1. Thiophenoquinones
SD Pineda Flores, GC Martin-Noble, RL Phillips, J Schrier
Journal of Physical Chemistry C 119 (38), 21800-21809, 2015
Noble Gas Separation using PG-ESX (X = 1, 2, 3) Nanoporous Two-Dimensional Polymers
AM Brockway, J Schrier
The Journal of Physical Chemistry C 117 (1), 393-402, 2013
Electronic structure of nanocrystal quantum-dot quantum wells
J Schrier, LW Wang
Physical Review B 73 (24), 245332, 2006
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