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Excited state biexcitons in monolayer WSe2 driven by vertically grown graphene nanosheets with high-density electron trapping edges
Authors:Bo Wen  Da-Ning Luo  Ling-Long Zhang  Xiao-Lin Li  Xin Wang  Liang-Liang Huang  Xi Zhang  Dong-Feng Diao
Affiliation:1. Institute of Nanosurface Science and Engineering Guangdong Provincial Key Laboratory of Micro/Nano Optomechatronics Engineering, Shenzhen University, Shenzhen 518060, China2. College of Physics, Nanjing University of Aeronautics and Astronautics, Key Laboratory of Aerospace Information Materials and Physics (NUAA), MIIT, Nanjing 211106, China3. Research Center of Medical Plasma Technology, Shenzhen University, Shenzhen 518060, China
Abstract:Interface engineering in atomically thin transition metal dichalcogenides (TMDs) is becoming an important and powerful technique to alter their properties, enabling new optoelectronic applications and quantum devices. Interface engineering in a monolayer WSe2 sample via introduction of high-density edges of standing structured graphene nanosheets (GNs) is realized. A strong photoluminescence (PL) emission peak from intravalley and intervalley trions at about 750 nm is observed at the room temperature, which indicated the heavily p-type doping of the monolayer WSe2/thin graphene nanosheet-embedded carbon (TGNEC) film heterostructure. We also successfully triggered the emission of biexcitons (excited state biexciton) in a monolayer WSe2, via the electron trapping centers of edge quantum wells of a TGNEC film. The PL emission of a monolayer WSe2/GNEC film is quenched by capturing the photoexcited electrons to reduce the electron-hole recombination rate. This study can be an important benchmark for the extensive understanding of light–matter interaction in TMDs, and their dynamics.
Keywords:excited state biexcitons  monolayer WSe2  vertically graphene  electron trapping edges  
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