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1. Using Exciton/Trion Dynamics to Spatially Monitor the Catalytic Activities of MoS 2 during the Hydrogen Evolution Reaction.

Author

Hsiao FH, Chung CC, Chiang CH, Feng WN, Tzeng WY, Lin HM, Tu CM, Wu HL, Wang YH, Woon WY, Chen HC, Chen CH, Lo CY, Lai MH, Chang YM, Lu LS, Chang WH, Chen CW, and Luo CW

Abstract

The adsorption and desorption of electrolyte ions strongly modulates the carrier density or carrier type on the surface of monolayer-MoS 2 catalyst during the hydrogen evolution reaction (HER). The buildup of electrolyte ions onto the surface of monolayer MoS 2 during the HER may also result in the formation of excitons and trions, similar to those observed in gate-controlled field-effect transistor devices. Using the distinct carrier relaxation dynamics of excitons and trions of monolayer MoS 2 as sensitive descriptors, an in situ microcell-based scanning time-resolved liquid cell microscope is set up to simultaneously measure the bias-dependent exciton/trion dynamics and spatially map the catalytic activity of monolayer MoS 2 during the HER. This operando probing technique used to monitor the interplay between exciton/trion dynamics and electrocatalytic activity for two-dimensional transition metal dichalcogenides provides an excellent platform to investigate the local carrier behaviors at the atomic layer/liquid electrolyte interfaces during electrocatalytic reaction.

Published

2022