High-Throughput Investigation of Delafossite materials

Barry Haycock; M. Kylee Underwood; Jonathan Lekse; Christopher Matranga; James Lewis

High-Throughput Investigation of Delafossite materials

ORAL

Abstract

We present the application of high-throughput calculations to the intriguing problem of the forbidden optical transition in the CuGa$_{1-x}$Fe$_x$O$_2$ delafossites, which is prototypical of many delafossite systems. When 5\% or more of the Ga sites are replaced with Fe, there is a sudden shift to an optical band gap of 1.5eV from 2.5eV. Using high-throughput calculations and data mining techniques, we show the most likely positional configurations for x = 0.00 through x = 0.10 of the Fe atoms relative to one another. Implications of this result and applications of the techniques used are discussed, including the development of candidate materials via high-throughput analysis of constituent search-space.

^*Funded by the National Science Foundation through NSF DMR 09-03225 and a subcontract from NETL (URS RES) for Work Activity 0004000.6.600.007.002.420.000.005 ARRA ICMI Project.

March 22, 2013, 9:24 AM – March 22, 2013, 9:36 AM

Authors

Barry Haycock
- Department of Physics, West Virginia University, WV26506, United States
M. Kylee Underwood
- Department of Physics, West Virginia University, WV26506, United States
- West Virginia University
Jonathan Lekse
- The National Energy Technology Laboratory, Pittsburgh, PA 15236, United States
Christopher Matranga
- The National Energy Technology Laboratory, Pittsburgh, PA 15236, United States
James Lewis
- Department of Physics, West Virginia University, WV26506, United States
- West Virginia University, Morgantown, WV 26501, United States
- NETL, Pittsburgh / WVU, Morgantown
- West Virginia University