Hui Cong
Chinese Academy of Sciences
33 Papers
128 Citations
Hui Cong is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Responsivity & Photodetector. The author has an hindex of 12, co-authored 32 publications.
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Papers
Germanium/perovskite heterostructure for high-performance and broadband photodetector from visible to infrared telecommunication band
TL;DR: A heterojunction photodetector made from germanium and perovskite layers can detect light in the visible and near-infrared ranges, showing potential for use in a wide range of applications, including in optical communications and next-generation optoelectronics.
Plasma Treatment for Nitrogen-Doped 3D Graphene Framework by a Conductive Matrix with Sulfur for High-Performance Li-S Batteries.
TL;DR: The N-doped graphene shows high Electrochemical performance and the flexible 3D porous stable structure accommodates the considerable volume change of the active material during lithium insertion and extraction processes, improving the long-term electrochemical performance.
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Insight into the effect of ligand-exchange on colloidal CsPbBr3 perovskite quantum dot/mesoporous-TiO2 composite-based photodetectors: much faster electron injection
Lin Zhou,Kai Yu,Fan Yang,Hui Cong,Nan Wang,Jun Zheng,Yuhua Zuo,Chuanbo Li,Buwen Cheng,Qiming Wang +9 more
TL;DR: In this paper, an all-inorganic perovskite quantum dot-based photodetector with bifunctional linker molecules is presented, which is highly superior to its counterpart without the linker.
100
Ultrathin Broadband Germanium–Graphene Hybrid Photodetector with High Performance
TL;DR: The photodetector based on germanium--graphene hybrid structure presents a new paradigm for the realization of small but high performance device in the process of integration in silicon-based optical chips and offers new opportunities for imaging, sensing, and other optoelectronic field applications.
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Multilayer Graphene–GeSn Quantum Well Heterostructure SWIR Light Source
TL;DR: Graphene, which has a high transmittance for all bands of light, lessens the burden of growing thick cladding layer and perfectly breaks the deadlock of light disappearance in metal contacts, provides a good alternative for the light source in silicon-based photonics.
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