# Signatures of defect-localized charged excitons in the photoluminescence   of monolayer molybdenum disulfide

**Authors:** Andre Neumann, Jessica Lindlau, Manuel Nutz, Aditya D. Mohite, Hisato, Yamaguchi, Alexander H\"ogele

arXiv: 1902.06872 · 2019-02-20

## TL;DR

This study uses hyperspectral photoluminescence mapping at cryogenic temperatures to identify defect-related charged excitons in monolayer MoS2, revealing defect-pinned trions and their dynamics, which enhances understanding of quasiparticles in layered semiconductors.

## Contribution

It demonstrates the presence of defect-localized charged excitons in monolayer MoS2 and characterizes their formation and decay processes, adding new insights into defect-related quasiparticles.

## Key findings

- Charged excitons are localized at defect sites.
- Defect-pinned trions form via unintentional doping.
- Similar timescales for formation, relaxation, and decay of B trions.

## Abstract

We study spatial photoluminescence characteristics of neutral and charged excitons across extended monolayer MoS$_2$ synthesized by chemical vapor deposition. Using two-dimensional hyperspectral photoluminescence mapping at cryogenic temperatures we identify regions with increased emission from charged excitons associated with both spin-orbit split valence subbands. Such regions are attributed to unintentional doping at defect sites with excess charge that bind neutral excitons to form defect-pinned trions. Our findings imply comparable timescales for the formation, relaxation, and radiative decay of $B$ trions, and add defect-localized $A$ and $B$ trions to the realm of photoexcited quasiparticles in layered semiconductors.

## Full text

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## Figures

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## References

58 references — full list in the complete paper: https://tomesphere.com/paper/1902.06872/full.md

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Source: https://tomesphere.com/paper/1902.06872