L
Liangbin Li
Researcher at University of Science and Technology of China
Publications - 371
Citations - 11338
Liangbin Li is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Crystallization & Nucleation. The author has an hindex of 48, co-authored 341 publications receiving 8970 citations. Previous affiliations of Liangbin Li include The Chinese University of Hong Kong & Sichuan University.
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Journal ArticleDOI
Collapse Transition‐Assisted Crystallization in P3HT Solution
Journal ArticleDOI
Measurement of cross sections for e+e- →μ+μ- At center-of-mass energies from 3.80 to 4.60 GeV
M. Ablikim,M. N. Achasov,P. Adlarson,S. Ahmed,M. Albrecht,A. Amoroso,Q. An,Anita,Yu Bai,O. Bakina,R. Baldini Ferroli,I. Balossino,Y. Ban,K. Begzsuren,J. V. Bennett,M. Bertani,D. Bettoni,F. Bianchi,Jacek Biernat,J. Bloms,A. Bortone,I. R. Boyko,R. A. Briere,H. Cai,X. Cai,A. Calcaterra,G. F. Cao,N. Cao,Serkant Ali Cetin,J. F. Chang,W. L. Chang,G. A. Chelkov,D. Y. Chen,G. F. Chen,H. S. Chen,M. L. Chen,S. J. Chen,X. R. Chen,Y. B. Chen,W. S. Cheng,G. Cibinetto,F. Cossio,X. F. Cui,H. L. Dai,J. P. Dai,Xingchao Dai,A. Dbeyssi,R. B. de Boer,D. V. Dedovich,Z. Y. Deng,A. G. Denig,I. Denysenko,M. Destefanis,F. De Mori,Y. Ding,C. Dong,J. Dong,L. Y. Dong,M. Y. Dong,Du S. X.,J. Fang,S. S. Fang,Yaquan Fang,R. Farinelli,L. Fava,F. Feldbauer,G. Felici,C. Q. Feng,M. Fritsch,Fu C. D.,Y. Fu,X. L. Gao,Y. N. Gao,Y. G. Gao,I. Garzia,E. M. Gersabeck,K. Goetzen,L. Gong,W. X. Gong,W. Gradl,M. Greco,Gu L. M.,Gu M. H.,S. Gu,Gu Y. T.,C. Y. Guan,A. Q. Guo,L. B. Guo,R. P. Guo,Y. P. Guo,A. Guskov,S. W. Han,T. T. Han,T. Z. Han,X. Q. Hao,F. A. Harris,He K. L.,F. H. Heinsius,T. Held,Y. K. Heng,M. Himmelreich,T. Holtmann,Yuan Hou,Z. L. Hou,Hu H. M.,Hu J. F.,T. Hu,Y. Hu,G. S. Huang,L. Q. Huang,X. T. Huang,Z. L. Huang,N. Huesken,T. Hussain,W. Ikegami Andersson,W. Imoehl,Muhammad Irshad,S. Jaeger,S. Janchiv,Q. P. Ji,Ji Q. P.,Ji X. B.,Ji X. L.,H. B. Jiang,X. S. Jiang,X. Y. Jiang,J. B. Jiao,Z. Jiao,S. Jin,Yi Jin,T. Johansson,Nasser Kalantar-Nayestanaki,X. S. Kang,R. Kappert,M. Kavatsyuk,Ke B. C.,I. K. Keshk,A. Khoukaz,P. Kiese,R. Kiuchi,R. Kliemt,L. Koch,O. B. Kolcu,B. Kopf,M. Kuemmel,M. Kuessner,Andrzej Kupsc,Matthew Glenn Kurth,W. Kühn,John Jake Lane,J. S. Lange,P. Larin,L. Lavezzi,H. Leithoff,M. Lellmann,Teresa Lenz,C. H. Li,Li C. H.,Li D. M.,F. Li,G. Li,Li H. B.,Li H. J.,Li J. L.,Li J. Q.,K. J. Li,Li L. K.,Liangbin Li,Li P. L.,Li P. R.,Li S. Y.,Li W. D.,Li W. G.,Li X. H.,Li X. L.,Li Z. B.,Li Z. Y.,H. Liang,Y. F. Liang,Y. T. Liang,L. Z. Liao,J. Libby,C. X. Lin,B. J. Liu,B. J. Liu,C. X. Liu,D. Y. Liu,D. Y. Liu,F. H. Liu,Fang Liu,H. B. Liu,H. M. Liu,H. H. Liu,J. B. Liu,J. Y. Liu,K. Y. Liu,K. Y. Liu,L. D. Liu,L. Y. Liu,Q. Liu,S. B. Liu,T. Liu,X. H. Liu,Y. B. Liu,Z. A. Liu,Zhiqiang Liu,Y. F. Long,Xuanhong Lou,Lu H. J.,Lu J. D.,Lu J. G.,Lu X. L.,Y. P. Lu,Lu Y. P.,C. L. Luo,M. X. Luo,P. W. Luo,Tao Luo,X. L. Luo,S. Lusso,Xiao-Rui Lyu,Ma F. C.,Ma H. L.,Ma L. L.,Ma M. M.,Ma Q. M.,Ma R. Q.,Ma R. T.,Ma X. N.,Ma X. X.,Ma X. Y.,Ma Y. M.,F. E. Maas,M. Maggiora,S. Maldaner,S. Malde,Q. A. Malik,A. Mangoni,Y. J. Mao,Z. P. Mao,S. Marcello,Z. X. Meng,J. G. Messchendorp,G. Mezzadri,T. J. Min,R. E. Mitchell,Mo X. H.,Mo Y. J.,N. Yu. Muchnoi,S. Nakhoul,Y. Nefedov,F. Nerling,I. B. Nikolaev,Z. Ning,S. Nisar,S. L. Olsen,Q. Ouyang,S. Pacetti,Yue Pan,M. Papenbrock,A. Pathak,P. Patteri,M. Pelizaeus,Haiping Peng,Krisztian Peters,Joachim Pettersson,Jialun Ping,R. G. Ping,A. Pitka,V. Prasad,H. R. Qi,Qi H. R.,M. Qi,Qi T. Y.,S. Qian,Wenbin Qian,Cong-Feng Qiao,L. Q. Qin,X. P. Qin,X. S. Qin,Z. H. Qin,J. F. Qiu,Qu S. Q.,K. H. Rashid,K. Ravindran,C. F. Redmer,Angelo Rivetti,V. Rodin,M. Rolo,G. Rong,C.-H. Rosner,M. Rump,A. Sarantsev,M. Savrie,Y. Schelhaas,C. Schnier,K. Schoenning,W. Shan,Xu Shan,M. Shao,C. P. Shen,P. X. Shen,X. Y. Shen,H. C. Shi,R. S. Shi,X D Shi,X. D. Shi,J. J. Song,Q. Q. Song,Y. X. Song,S. Sosio,S. Spataro,F. F. Sui,G. X. Sun,J. F. Sun,L. Sun,S. S. Sun,Tao Sun,W. Y. Sun,Y. J. Sun,Y. K. Sun,Y. Z. Sun,Zhe Sun,Y. X. Tan,C. J. Tang,G. Y. Tang,J. Tang,Viktor Thorén,B. T. Tsednee,I. Uman,B. Wang,B. L. Wang,C. W. Wang,Dan Wang,Hai-Tian Wang,Ke Wang,L. L. Wang,M. Z. Wang,Meng Wang,W. P. Wang,X. L. Wang,X. F. Wang,X. L. Wang,Y. F. Wang,Yao Wang,Y. F. Wang,Y. Q. Wang,Zujian Wang,Z. Y. Wang,Tristan Weber,D. H. Wei,P. Weidenkaff,F. Weidner,H. W. Wen,S. P. Wen,Dylan Jaide White,U. Wiedner,G. Wilkinson,Magnus Wolke,L. Wollenberg,Wu J. F.,Wu L. H.,Wu L. J.,X. Wu,Z. Wu,L. G. Xia,H. Xiao,S. Y. Xiao,Y. J. Xiao,Z. J. Xiao,X. H. Xie,Y. G. Xie,Y. H. Xie,T. Y. Xing,X. A. Xiong,Xu G. F.,Xu J. J.,Xu Q. J.,Wei Xu,Xu X. P.,Li Yan,W. B. Yan,W. C. Yan,H. J. Yang,H. X. Yang,L. Yang,R. X. Yang,S. L. Yang,Y. H. Yang,Y. X. Yang,Y. Yang,Zhi Yang,M. H. Ye,Ye M. H.,J. H. Yin,Z. Y. You,Yu B. X.,Yu C. X.,Guoqiang Yu,Yu J. S.,T. Yu,C. Z. Yuan,W. L. Yuan,Xujin Yuan,Y. Yuan,C. X. Yue,Alperen Yuncu,A. A. Zafar,Y. Zeng,B. X. Zhang,Guangyi Zhang,H. H. Zhang,H. Y. Zhang,J. L. Zhang,J. Q. Zhang,J. W. Zhang,J. Y. Zhang,J. Z. Zhang,J. M. Zhang,Lingxuan Zhang,S. H. Zhang,Shulei Zhang,Tao Zhang,X. Y. Zhang,Y. Zhang,Y. H. Zhang,Yunlong Zhang,Zhiqing Zhang,Z. Y. Zhang,Gang Zhao,J. B. Zhao,Jie Zhao,Jimin Zhao,L. Zhao,M. G. Zhao,Q. Zhao,S. J. Zhao,Y. B. Zhao,Y. X. Zhao,Z. G. Zhao,Alexey Zhemchugov,B. Zheng,Jianping Zheng,Y. H. Zheng,Y. H. Zheng,B. Zhong,C. Zhong,L. P. Zhou,Q. Zhou,X. K. Zhou,X. K. Zhou,X. R. Zhou,A. N. Zhu,J. Zhu,K. J. Zhu,K. J. Zhu,Shou-hua Zhu,W. J. Zhu,Xiaofeng Zhu,Y. C. Zhu,Z. A. Zhu,B. S. Zou,J. H. Zou +462 more
TL;DR: The observed cross sections for e(+)e(-) -> mu(+) mu(-) at energies from 3.8 to 4.6 GeVare measured using data samples taken with the BESIII detector operated at the BEPCII collider.
Journal ArticleDOI
High performance ultra-high molecular weight polyethylene nanocomposite separators with excellent rate capabilities designed for next-generation lithium-ion batteries
TL;DR: In this article , an advanced nanocomposite separator with great commercialization potential is developed using ultra-high molecular weight polyethylene (UHMWPE) and inorganic silicon dioxide (SiO2) nanofillers.
Journal ArticleDOI
Thermally stable and high electrochemical performance ultra-high molecular weight polyethylene/poly(4-methyl-1-pentene) blend film used as Li-ion battery separator
Jean Claude Habumugisha,Zubaida Rukhsana Usha,Rui Yu,Dafaalla M.D. Babiker,Caixia Wan,Xin Chen,Xin Chen,Liangbin Li +7 more
TL;DR: In this article, a microporous structure of ultra-high molecular weight polyethylene/poly(4-methyl-1-pentene) (UHMWPE/PMP) blend film via sequential biaxial stretching is achieved by tuning PMP content.