Interlayer electron-hole pair multiplication by hot carriers in atomic layer semiconductor heterostructures

Fatemeh Barati; Max Grossnickle; Shanshan Su; Roger Lake; Vivek Aji; Nathaniel Gabor

Interlayer electron-hole pair multiplication by hot carriers in atomic layer semiconductor heterostructures

ORAL

Abstract

Two-dimensional heterostructures composed of atomically thin transition metal dichalcogenides~provide the opportunity to design novel devices for the study of electron-hole pair multiplication. We report on highly efficient multiplication of interlayer electron-hole pairs~at the interface of a tungsten diselenide / molybdenum diselenide heterostructure. Electronic transport measurements of the interlayer current-voltage characteristics indicate that layer-indirect~electron-hole pairs are generated by hot electron impact excitation. Our findings, which demonstrate an efficient energy relaxation pathway that competes with electron thermalization losses, make 2D semiconductor heterostructures viable for a new class of hot-carrier energy harvesting devices that exploit layer-indirect electron-hole excitations.

^*SHINES, an Energy Frontier Research Center funded by the U.S. Department of Energy, Air Force Office of Scientific Research

March 13, 2017, 3:06 PM – March 13, 2017, 3:18 PM

Authors

Fatemeh Barati
- Univ of California - Riverside
Max Grossnickle
- Univ of California - Riverside
Shanshan Su
- University of California - Riverside
- Univ of California - Riverside
Roger Lake
- University of California - Riverside
- Univ of California - Riverside
Vivek Aji
- University of California Riverside
- Univ of California - Riverside
Nathaniel Gabor
- University of California, Riverside
- Univ of California - Riverside