High throughput screening of semiconductor photoelectrodes for renewable hydrogen generation

Quinn Campbell; Jared Mondschein; Haiyu Wang; Kriti Seth; Julian Fanghanel; Héctor Abruña; Venkatraman Gopalan; Raymond Schaak; Ismaila Dabo

High throughput screening of semiconductor photoelectrodes for renewable hydrogen generation

ORAL

Abstract

The need to produce carbon-neutral chemical fuels for transportation provides a strong motivation to develop semiconductor photoelectrodes that can split water molecules to renewably generate hydrogen fuels. Available photocatalytic electrodes exhibit low efficiencies due to limited solar absorption, misaligned electronic levels, and short-lived stability in water. We develop a high-throughput screening protocol based on self-interaction-corrected semilocal density-functional theory to identify semiconductor photoelectrodes for hydrogen production. We further introduce a quantum–continuum method for predicting charge accumulation at the semiconductor electrode under applied bias to examine how surface states affect efficiency and stability. We predict 30 candidate materials, which have been synthesized and characterized by experimental collaborators, showing promising solar-to-hydrogen performance.

^*The authors acknowledge primary support from the National Science Foundation under Grant DMR-1729338 and DMR-1654625, and partial support from the 3M Graduate Fellowship and Penn State University Graduate Fellowship

March 4, 2019, 12:27 PM – March 4, 2019, 12:39 PM

Presenters

Quinn Campbell
- Materials Science and Engineering, Pennsylvania State University

Authors

Quinn Campbell
- Materials Science and Engineering, Pennsylvania State University
Jared Mondschein
- Chemistry, Pennsylvania State University
Haiyu Wang
- Materials Science and Engineering, Pennsylvania State University
Kriti Seth
- Chemistry, Pennsylvania State University
Julian Fanghanel
- Chemistry, Pennsylvania State University
Héctor Abruña
- Chemistry and Chemical Biology, Cornell University
- Cornell University
Venkatraman Gopalan
- Pennsylvania State University
- Materials Science and Engineering, Pennsylvania State University
- Physics, Pennsylvania State University
- Materials Science and Engineering Department, Pennsylvania State University
Raymond Schaak
- Chemistry, Pennsylvania State University
Ismaila Dabo
- Pennsylvania State University
- Materials Science and Engineering Department, Pennsylvania State University
- Materials Science and Engineering, Pennsylvania State University