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Wei Jiang
Researcher at Chinese Academy of Sciences
Publications - 541
Citations - 14554
Wei Jiang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Micelle & Quantum dot. The author has an hindex of 53, co-authored 494 publications receiving 11455 citations. Previous affiliations of Wei Jiang include Paul Scherrer Institute & Sun Yat-sen University.
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Journal ArticleDOI
The DArk Matter Particle Explorer mission
Jin Chang,G. Ambrosi,Q. An,R. Asfandiyarov,P. Azzarello,P. Bernardini,P. Bernardini,B. Bertucci,B. Bertucci,M. S. Cai,M. Caragiulo,Deng Yi Chen,H. S. Chen,J. L. Chen,W. Chen,M. Y. Cui,T. S. Cui,A. D'Amone,A. D'Amone,A. De Benedittis,A. De Benedittis,I. De Mitri,I. De Mitri,M. Di Santo,J.N. Dong,Tie-Kuang Dong,Y. F. Dong,Z. X. Dong,Giacinto Donvito,D. Droz,Kai-Kai Duan,Jinglai Duan,M. Duranti,M. Duranti,D. D'Urso,R. R. Fan,Yi-Zhong Fan,Fang Fang,Chang Qing Feng,Lei Feng,P. Fusco,P. Fusco,V. Gallo,F. J. Gan,W.Q. Gan,Min Gao,Shan-Shan Gao,F. Gargano,K. Gong,Y. Z. Gong,Jian Hua Guo,Y. M. Hu,Guang Shun Huang,Y. Y. Huang,Maria Ionica,Dan Jiang,Wei Jiang,X. Jin,Jie Kong,Shi-Jun Lei,S. Li,X. X. Li,Wei Liang Li,Y. L. Li,Y.F. Liang,Yao Ming Liang,N. H. Liao,Q.Z. Liu,H. Liu,Jie Liu,S. B. Liu,Wenqiang Liu,Yang Liu,F. Loparco,F. Loparco,J. G. Lu,M. M. Ma,Peng-Xiong Ma,S. Y. Ma,Tao Ma,X.Q. Ma,Xiao Yong Ma,G. Marsella,G. Marsella,M. N. Mazziotta,D. Mo,T.T. Miao,Niu Xiaoyang,M. Pohl,X. Y. Peng,W. X. Peng,R. Qiao,J. N. Rao,M. M. Salinas,G. Z. Shang,W. H. Shen,Zhao-Qiang Shen,Z. T. Shen,Ju-Xian Song,H. Su,Meng Su,Zhi-Yu Sun,A. Surdo,X. J. Teng,X.B. Tian,Andrii Tykhonov,V. Vagelli,V. Vagelli,S. Vitillo,Chunjie Wang,Chi Wang,H. W. Wang,Haiyan Wang,Jin Zhou Wang,L. G. Wang,Q. Wang,Shu Xin Wang,Xiaohui Wang,X. L. Wang,Yan Fang Wang,Yen-Po Wang,Yuan Zhu Wang,S. C. Wen,Zhao-Min Wang,Da Ming Wei,Da Ming Wei,J. J. Wei,Y. F. Wei,Di Wu,Jian Wu,Jian Wu,Sha Wu,Xin Wu,K. Xi,Zi-Qing Xia,Zi-Qing Xia,Y.L. Xin,Hai Tao Xu,Z. Xu,Zi Zong Xu,G. F. Xue,Yang Haibo,Jianyi Yang,Peidong Yang,Yifan Yang,Z.L. Yang,Hui Jun Yao,Yu-Hong Yu,Qiang Yuan,Qiang Yuan,Chuan Yue,J. J. Zang,Chao Zhang,D.L. Zhang,F. Zhang,J.B. Zhang,Jianli Zhang,Jilong Zhang,Laiyu Zhang,Ping Zhang,Shengxia Zhang,W. Zhang,Y. Zhang,Y. J. Zhang,Yongjie Zhang,Yun Long Zhang,Ya Peng Zhang,Z. M. Zhang,Zhenyu Zhang,Hong Yun Zhao,H.Y. Zhao,Xun Feng Zhao,Chang Yi Zhou,Yong Zhou,X. Zhu,Y. Zhu,Stephan Zimmer +176 more
TL;DR: The DArk Matter Particle Explorer (DAMPE) as mentioned in this paper, one of the four scientific space science missions within the framework of the Strategic Pioneer Program on Space Science of the Chinese Academy of Sciences, was successfully launched on December 17th, 2015 from the Jiuquan Satellite Launch Center.
Journal ArticleDOI
Integrative Self-Sorting: Construction of a Cascade-Stoppered Hetero[3]rotaxane
TL;DR: With these two systems, the concept of integrative self-sorting, and their relation, is demonstrated, and a hetero[3]rotaxane with an efficient stopper cascade has been synthesized.
Journal ArticleDOI
Control of carbon nanotubes at the interface of a co-continuous immiscible polymer blend to fabricate conductive composites with ultralow percolation thresholds
TL;DR: In this article, the authors proposed a double percolation method for conductive polymer composites, where conductive fillers are only selectively distributed at the continuous interface of the co-continuous polymer blend, where only a very small amount of fillers were needed to build up the conductive percolated network.
Journal ArticleDOI
Design of electrical conductive composites: tuning the morphology to improve the electrical properties of graphene filled immiscible polymer blends.
Cui Mao,Yutian Zhu,Wei Jiang +2 more
TL;DR: The results reveal that the electrical conductivity of the composites can be optimal when PS and PMMA phases form a cocontinuous structure and GE-ODA nanosheets are selectively located and percolated in the PS phase.
Journal ArticleDOI
Monitoring Self-Sorting by Electrospray Ionization Mass Spectrometry: Formation Intermediates and Error-Correction during the Self-Assembly of Multiply Threaded Pseudorotaxanes
TL;DR: The determination of preferred assembly pathways as well as the formation of dead-end structures provides a clear picture of a rich kinetic behavior of the self-sorting systems under study.