首站-论文投稿智能助手
典型文献
Polymers for Flexible Electronics
文献摘要:
The discovery of conductive polyacetylene by Heeger,MacDiarmid,and Shirakawa et al.in 1977 opened a new era,which led them to win the 2000 Nobel Prize in Chem-istry for"The discovery and development of conductive polymers".[1]In 1987,Tang and VanSlyke reported sand-wiched electroluminescence device structures,represent-ing a milestone in the field of organic electronics.[2]In 1990,Friend,Holmes,Bradley,and their coworkers from the Cavendish Laboratory and Melville Laboratory with Cambridge University developed their polymer-based electroluminescent devices,which was widely recognized as opening the door of plastic electronics.[3]Since then,the technologies of organic light-emitting diodes(OLED),organic photovoltaics(OPV),organic field-effect transist-ors(OFET),and organic solid-state lasers(OSSL),based on conductive polymers have been pushing forward quite rapidly.
文献关键词:
作者姓名:
HUANG Wei
作者机构:
Frontiers Science&Fundamental Research Center for Flexible Electronics,Shaanxi Institute of Flexible Electronics&Institute of Biomedical Materials and Engineering,Northwestern Polytechnical University Key Laboratory of Flexible Electronics(KLoFE)and Institute of Advanced Materials(IAM),School of Flexible Electronics(SoFE),Nanjing Tech University(NanjingTech)State Key Laboratory of Organic Electronics and Information Displays and Institute of Advanced Materials(IAM),School of Materials Science and Engineering,Nanjing University of Posts&Telecommunications
引用格式:
[1]HUANG Wei-.Polymers for Flexible Electronics)[J].高分子科学(英文版),2022(12):1513-1514
A类:
MacDiarmid,Shirakawa,VanSlyke,Cavendish,Melville,transist,OSSL
B类:
Polymers,Flexible,Electronics,discovery,conductive,polyacetylene,by,Heeger,al,opened,new,era,which,led,them,win,Nobel,Prize,Chem,istry,development,polymers,In,Tang,reported,sand,wiched,electroluminescence,structures,represent,milestone,field,organic,electronics,Friend,Holmes,Bradley,their,coworkers,from,Laboratory,Cambridge,University,developed,electroluminescent,devices,was,widely,recognized,opening,door,plastic,Since,then,technologies,light,emitting,diodes,OLED,photovoltaics,OPV,effect,ors,OFET,solid,state,lasers,have,been,pushing,forward,quite,rapidly
AB值:
0.659138
相似文献
Biomass-Derived Carbon Heterostructures Enable Environmentally Adaptive Wideband Electromagnetic Wave Absorbers
Zhichao Lou;Qiuyi Wang;Ufuoma I.Kara;Rajdeep S.Mamtani;Xiaodi Zhou;Huiyang Bian;Zhihong Yang;Yanjun Li;Hualiang Lv;Solomon Adera;Xiaoguang Wang-Jiangsu Co-Innovation Center of Efficient Processing and Utilization of Forest Resources,Nanjing Forestry University,Nanjing 210037,People's Republic of China;Willian G.Lowrie Department of Chemical and Biomolecular Engineering,The Ohio State University,Columbus,OH 43210,USA;Institute of Materials Research and Engineering,Agency for Sciences,Technology and Research,Singapore,Singapore;Department of Mechanical Engineering,University of Michigan,Ann Arbor,MI 48109,USA;Sustainability Institute,The Ohio State University,Columbus,OH 43210,USA
High-Transconductance,Highly Elastic,Durable and Recyclable All-Polymer Electrochemical Transistors with 3D Micro-Engineered Interfaces
Wenjin Wang;Zhaoxian Li;Mancheng Li;Lvye Fang;Fubin Chen;Songjia Han;Liuyuan Lan;Junxin Chen;Qize Chen;Hongshang Wang;Chuan Liu;Yabin Yang;Wan Yue;Zhuang Xie-School of Materials Science and Engineering,Guangzhou Key Laboratory of Flexible Electronic Materials and Wearable Devices and Key Laboratory for Polymeric Composite and Functional Materials of Ministry of Education,Sun Yat-Sen University,Guangzhou 510275,People's Republic of China;State Key Laboratory of Optoelectronic Materials and Technologies and Guangdong Province Key Laboratory of Display Material and Technology,School of Electronics and Information Technology,Sun Yat-Sen University,Guangzhou 510275,People's Republic of China
A Spiral Graphene Framework Containing Highly Ordered Graphene Microtubes for Polymer Composites with Superior Through-Plane Thermal Conductivity
Jinrui Gong;Xue Tan;Qilong Yuan;Zhiduo Liu;Junfeng Ying;Le Lv;Qingwei Yan;Wubo Chu;Chen Xue;Jinhong Yu;Kazuhito Nishimura;Nan Jiang;Cheng-Te Lin;Wen Dai-Key Laboratory of Marine Materials and Related Technologies,Zhejiang Key Laboratory of Marine Materials and Protective Technologies,Ningbo Institute of Materials Technology and Engineering(NIMTE),Chinese Academy of Sciences,Ningbo,Zhejiang 315201,China;Center of Materials Science and Optoelectronics Engineering,University of Chinese Academy of Sciences,Beijing 100049,China;Centre for Quantum Physics,Key Laboratory of Advanced Optoelectronic Quantum Architecture and Measurement(MOE);Beijing Key Lab of Nanophotonics&Ultrafine Optoelectronic Systems,School of Physics,Beijing Institute of Technology,Beijing 100081,China;College of Materials Science and Engineering,Hunan University,Changsha,Hunan 410082,China;Advanced Nano-processing Engineering Lab,Mechanical Systems Engineering,Kogakuin University,Tokyo 192-0015,Japan
Three-Year Consecutive Field Application of Erythromycin Fermentation Residue Following Hydrothermal Treatment:Cumulative Effect on Soil Antibiotic Resistance Genes
Ziming Han;Haodi Feng;Xiao Luan;Yunpeng Shen;Liren Ren;Liujie Deng;D.G.Joakim Larsson;Michael Gillings;Yu Zhang;Min Yang-State Key Laboratory of Environmental Aquatic Chemistry,Research Center for Eco-Environmental Sciences,Chinese Academy of Sciences,Beijing 100085,China;University of Chinese Academy of Sciences,Beijing 100049,China;State Environmental Protection Engineering Center for Harmless Treatment and Resource Utilization of Antibiotic Residues,Khorgos 835007,China;Institute for Biomedicine&the Centre for Antibiotic Resistance Research,University of Gothenburg,G?teborg SE-413 46,Sweden;Australian Research Council(ARC)Centre of Excellence in Synthetic Biology,Department of Biological Sciences,Faculty of Science and Engineering,Macquarie University,Sydney,NSW 2109,Australia
机标中图分类号,由域田数据科技根据网络公开资料自动分析生成,仅供学习研究参考。