Single-molecule optoelectronic devices: physical mechanism and beyond|Peihui Li;Yijian Chen;Boyu Wang;Mengmeng Li;Dong Xiang;Chuancheng Jia;Xuefeng Guo|Beijing National Laboratory for Molecular Sciences,State Key Laboratory for Structural Chemistry of Unstable and Stable Species,College of Chemistry and Molecular Engineering,Peking University,Beijing 100871,China - 期刊导航|首站-论文投稿智能助手|论文发表|论文智能投稿|期刊自助发表推荐|杂志社快速发表|查同导刊-域田数据官方网站

典型文献

Single-molecule optoelectronic devices: physical mechanism and beyond

文献摘要：

Single-molecule devices not only promise to provide an alternative strategy to break through the miniaturization and func-tionalization bottlenecks faced by traditional semiconductor devices, but also provide a reliable platform for exploration of the intrinsic properties of matters at the single-molecule level. Because the regulation of the electrical properties of single-molecule devices will be a key factor in enabling further advances in the development of molecular electronics, it is necessary to clarify the interactions between the charge transport occurring in the device and the external fields, particu-larly the optical field. This review mainly introduces the optoelectronic effects that are involved in single-molecule devices, including photoisomerization switching, photoconductance, plasmon-induced excitation, photovoltaic effect, and electroluminescence. We also summarize the optoelectronic mechanisms of single-molecule devices, with particular em-phasis on the photoisomerization, photoexcitation, and photo-assisted tunneling processes. Finally, we focus the discus-sion on the opportunities and challenges arising in the single-molecule optoelectronics field and propose further possible breakthroughs.

文献关键词：

中图分类号：

[1] 医药、卫生（R） / 基础医学（R3） / 病理学（R36） / 病理过程（R364）

[2] 自动化技术、计算机技术（TP） / 计算技术、计算机技术（TP3） / 计算机的应用（TP39） / 信息处理(信息加工)（TP391）

[3] 医药、卫生（R） / 药学（R9） / 药理学（R96） / 实验药理学（R965）

作者姓名：

Peihui Li;Yijian Chen;Boyu Wang;Mengmeng Li;Dong Xiang;Chuancheng Jia;Xuefeng Guo

作者机构：

Center of Single-Molecule Sciences,Institute of Modern Optics,Tianjin Key Laboratory of Micro-scale Optical Information Science and Technology,Frontiers Science Center for New Organic Matter,College of Electronic Information and Optical Engineering,Nankai University,Tianjin 300350,China;Beijing National Laboratory for Molecular Sciences,State Key Laboratory for Structural Chemistry of Unstable and Stable Species,College of Chemistry and Molecular Engineering,Peking University,Beijing 100871,China

文献出处：

光电进展（英文版）

引用格式：

[1]Peihui Li;Yijian Chen;Boyu Wang;Mengmeng Li;Dong Xiang;Chuancheng Jia;Xuefeng Guo-.Single-molecule optoelectronic devices: physical mechanism and beyond)[J].光电进展（英文版）,2022(05):1-21

A类：

photoisomerization,photoconductance

B类：

Single,molecule,devices,physical,beyond,not,only,promise,provide,alternative,strategy,miniaturization,func,tionalization,bottlenecks,faced,by,traditional,semiconductor,but,also,reliable,platform,exploration,intrinsic,properties,matters,single,level,Because,regulation,electrical,will,key,enabling,further,advances,development,molecular,necessary,clarify,interactions,between,charge,transport,occurring,external,fields,larly,optical,This,review,mainly,introduces,effects,that,are,involved,including,switching,plasmon,induced,photovoltaic,electroluminescence,We,summarize,mechanisms,particular,phasis,photoexcitation,assisted,tunneling,processes,Finally,focus,discus,sion,opportunities,challenges,arising,optoelectronics,propose,possible,breakthroughs

AB值：

0.57332

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