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.
Papers
More filters
Journal ArticleDOI
Conformational Ordering on the Growth Front of Isotactic Polypropylene Spherulite
Yuanhua Cong,Zhihua Hong,Weiming Zhou,Wei Chen,Fengmei Su,Li Hailong,Xiangyang Li,Ke Yang,Xiaohan Yu,Zeming Qi,Liangbin Li +10 more
TL;DR: In this paper, the growth front of isotactic polypropylene (iPP) spherulites is studied with series of in-situ microanalyzing techniques: conventional source infrared micro-spectroscopic (CS-μIR), polarized infrared microspectroscopy imaging (SR-μPIR), and scanning X-ray microdiffraction (SRSXRD).
Journal ArticleDOI
Transient Phase-Induced Nucleation in Ionic Liquid Crystals and Size-Frustrated Thickening
TL;DR: In this article, the authors studied the crystallization behavior of amphiphilic ionic imidazolium liquid crystals with in situ small-and wide-angle X-ray scattering.
Journal ArticleDOI
A novel carboxylated polyacrylonitrile nanofibrous membrane with high adsorption capacity for fluoride removal from water.
TL;DR: In this article, a carboxylated polyacrylonitrile nanofibrous membrane (C-PAN NFM) is designed and fabricated massively for the first time by adopting synchronously biaxial stretching and car-boxylation.
Journal ArticleDOI
Search for CP Violation and Measurement of the Branching Fraction in the Decay D^{0}→K_{S}^{0}K_{S}^{0}.
N. Dash,Seema Bahinipati,V. Bhardwaj,K. Trabelsi,I. Adachi,H. Aihara,S. Al Said,D. M. Asner,V. M. Aulchenko,T. Aushev,R. Ayad,V. Babu,I. Badhrees,A. M. Bakich,Vikas Bansal,E. L. Barberio,B. Bhuyan,Jyoti Prakash Biswal,A. Bobrov,A. Bondar,G. Bonvicini,A. Bozek,M. Bračko,F. Breibeck,T. E. Browder,D. Červenkov,M. C. Chang,V. Chekelian,A. Chen,B. G. Cheon,K. Chilikin,K. Cho,Y. Choi,D. Cinabro,S. Di Carlo,Z. Doležal,Z. Drásal,Dipanwita Dutta,S. Eidelman,D. Epifanov,H. Farhat,James E. Fast,T. Ferber,B. G. Fulsom,V. Gaur,N. Gabyshev,A. Garmash,R. Gillard,P. Goldenzweig,J. Haba,T. Hara,K. Hayasaka,H. Hayashii,M. T. Hedges,W. S. Hou,T. Iijima,K. Inami,A. Ishikawa,R. Itoh,Y. Iwasaki,W. W. Jacobs,I. Jaegle,H. B. Jeon,Y. Jin,D. Joffe,K. K. Joo,T. Julius,J. Kahn,A. B. Kaliyar,G. Karyan,P. Katrenko,T. Kawasaki,C. Kiesling,D. Y. Kim,H. J. Kim,J. B. Kim,K. T. Kim,M. J. Kim,S. H. Kim,Yongsun Kim,K. Kinoshita,Peter Kodys,S. Korpar,D. Kotchetkov,P. Križan,P. Krokovny,T. Kuhr,R. Kulasiri,Rakesh Kumar,T. Kumita,A. Kuzmin,Y. J. Kwon,J. S. Lange,I. S. Lee,C. H. Li,Liangbin Li,Yang Li,L. Li Gioi,J. Libby,D. Liventsev,M. Lubej,T. Luo,M. Masuda,D. Matvienko,M. Merola,K. Miyabayashi,H. Miyata,R. Mizuk,G. B. Mohanty,Saraju P. Mohanty,H. K. Moon,T. Mori,R. Mussa,E. Nakano,M. Nakao,Tara Nanut,K. J. Nath,Z. Natkaniec,M. Nayak,M. Niiyama,N. K. Nisar,S. Nishida,S. Ogawa,S. Okuno,H. Ono,P. Pakhlov,G. Pakhlova,B. Pal,S. Pardi,C. S. Park,H. Park,Soumen Paul,T. K. Pedlar,L. Pesántez,R. Pestotnik,L. E. Piilonen,K. Prasanth,Martin Ritter,A. Rostomyan,H. Sahoo,Y. Sakai,S. Sandilya,Luka Santelj,T. Sanuki,Yuki Sato,V. Savinov,O. Schneider,G. Schnell,C. Schwanda,A. J. Schwartz,Y. Seino,K. Senyo,M. E. Sevior,V.E. Shebalin,C. P. Shen,T. A. Shibata,J. G. Shiu,B. Shwartz,Frank Simon,Andrey Sokolov,E. Solovieva,M. Starič,J. F. Strube,J. Stypula,K. Sumisawa,T. Sumiyoshi,M. Takizawa,U. Tamponi,K. Tanida,F. Tenchini,M. Uchida,T. Uglov,Y. Unno,S. Uno,Phillip Urquijo,Yu. V. Usov,C. Van Hulse,G. S. Varner,V. Vorobyev,A. Vossen,E. Waheed,C. H. Wang,M. Z. Wang,P. L. Wang,M. Watanabe,Y. Watanabe,Eberhard Widmann,K. M. Williams,E. Won,Y. Yamashita,H. Ye,John Yelton,Y. Yook,C. Z. Yuan,Y. Yusa,Z. P. Zhang,V.N. Zhilich,Victoria Zhukova,Vladimir Zhulanov,A. Zupanc +199 more
TL;DR: Results are significantly more precise than previous measurements available for this mode, and the A_{CP} measurement is consistent with the standard model expectation.
Journal ArticleDOI
A facile interfacial reaction route to prepare magnetic hollow spheres with tunable shell thickness.
Yuanhua Cong,Guanglin Wang,Meng-Hua Xiong,Youju Huang,Zhenfei Hong,Daoliang Wang,Junjun Li,Liangbin Li +7 more
TL;DR: Magnetic Fe3O4 hollow spheres were successfully synthesized with a water in oil in water (W/O/W) emulsion by using the "reverse micelle transport" mechanism and showed a good spherical morphology.