Neutral Exciton Diffusion In Monolayer Mos2
ACS NANO(2020)
摘要
Monolayer transition metal dichalcogenides (TMDCs) are promising materials for next generation optoelectronic devices. The exciton diffusion length is a critical parameter that reflects the quality of exciton transport in monolayer TMDCs and limits the performance of many excitonic devices. Although diffusion lengths of a few hundred nanometers have been reported in the literature for asexfoliated monolayers, these measurements are convoluted by neutral and charged excitons (trions) that coexist at room. temperature due to natural background doping. Untangling the diffusion of neutral excitons and trionsusingis paramount to understand the fundamental limits and potential of new optoelectronic device architectures made possible TMDCs. In this work, lw.e measure the diffusion lengths of neutral excitons and trions in monolayer MoS2 by tuning the background carrier concentration using a gate voltage and utilizing both steady state and transient. spectroscopy. We observe diffusion lengths of 1.5 mu m and 300 nm for neutral excitons and trions, respectively, at an optical power density of 0.6 W cm(-2).
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关键词
MoS2, exciton, trion, diffusion, transport, quantum yield
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