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Probing the long‐lived photo‐generated charge carriers in transition metal dichalcogenides by time‐resolved microwave photoconductivity

Artur P. Herman, Szymon J. Zelewski, Kamil Misztal, R. Kudrawiec

2022Nanophotonics15 citationsDOIOpen Access PDF

Abstract

Abstract Understanding the dissociation of excitons into long‐lived free charge carriers is a crucial issue when considering the applications of transition metal dichalcogenides (excitonic semiconductors) oriented toward the use of solar energy (such as photovoltaics or photocatalysis). In our work, long‐lived carriers have been observed by time‐resolved microwave photoconductivity (TRMC) for the first time in both atomically thin and bulk MoS 2 , MoSe 2 , WS 2 , and WSe 2 crystals. The lifetime of majority carriers is close to microseconds and can even reach several microseconds due to different contribution of surface and defect states, as well as surface band bending (bulk). The three components depend on the material and vary from sample to sample, therefore determining the dynamics of the TRMC signal. The rise time of TRMC signal was found to be in the range of 0.1–0.2 μs and as it depends on the studied material it can be speculated that it is related to the dissociation time of excitons captured by traps.

Topics & Concepts

ExcitonPhotoconductivityCharge carrierMaterials scienceSemiconductorMicrosecondMicrowaveOptoelectronicsChemical physicsCondensed matter physicsNanotechnologyChemistryOpticsPhysicsQuantum mechanics2D Materials and ApplicationsMXene and MAX Phase MaterialsAdvanced Photocatalysis Techniques
Probing the long‐lived photo‐generated charge carriers in transition metal dichalcogenides by time‐resolved microwave photoconductivity | Litcius