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1 Wei, Xiong, Yiming Tang, Changyu Shao, Yueqi Zhao, Biao Jin, Tingting Huang, Ya'nan Miao, Lei Shu, Weimin Ma*, Xurong Xu*, Ruikang Tang*, Prevention of Cyanobacterial Blooms Using Nanosilica: A Biomineralization-Inspired Strategy, Environmental Science Technology, 2017, 51(21): 12717-12726.
2 Pengqiang Duan, Tingting Huang, Wei Xiong, Lei Shu, Yuling Yang, Changyu Shao, Xurong Xu*, Weimin Ma*, Ruikang Tang*, Protection of Photosynthetic Algae against Ultraviolet Radiation by One-Step CeO2 Shellization, Langmuir, 2017,33(9): 2454-2459.
3 Wei Xiong, Xiaohong Zhao, Genxing Zhu, Changyu Shao, Yaling Li, Weimin Ma*, Xurong Xu*, Ruikang Tang*, Silicification-Induced Cell Aggregation for the Sustainable Production of H2 under Aerobic Conditions, Angewandte Chemie International Edition, 2015, 54(41):11961-11965.
4 Wei Xiong, Zhou Yang, Guangchuan Wang, Xurong Xu*, Weimin Ma*, Ruikang Tang*, Alleviation of high light-induced photoinhibition in cyanobacteria by artificially conferred biosilica shells, Chemical Communication, 2013, 49(68):7525-7527.
5 Xiaoyu Wang, Yong-Qiang Deng, Dong Yang, Yun Xiao, Hui Zhao, Qing-Gong Nian, Xurong Xu, Xiao-Feng Li, Ruikang Tang*, Cheng-Feng Qin*, Biomimetic inorganic camouflage circumvents antibody-dependent enhancement of infection, Chemical Science, 2017, 8(12): 8240-8246.
6 Wenge Jiang, Haihua Pan, Zhisen Zhang, S. Roger Qiu, J. Donggun Kim, Xurong Xu, Ruikang Tang*, Switchable Chiral Selection of Aspartic Acids by Dynamic States of Brushite, Journal of The American Chemical Society, 2017, 139(25): 8562-8569.
7 Zhaoming Liu, Xurong Xu, Ruikang Tang*, Improvement of Biological Organisms Using Functional Material Shells, Advanced Functional Materials, 2016, 26(12): 1862-1880.
1 J.H. Tao, D.M. Zhou, Z.S. Zhang, X.R. Xu, R.K.Tang “Magnesium-aspartate-based crystallization switch inspired from shell molt of crustacean”. Proc. Natl. Acad. Sci. (USA), 2009, 106, 22096-22101.
2 W.G. Jiang, X.B. Chu, B. Wang, H.H. Pan, X.R. Xu, R.K. Tang“Biomimetically Triggered Inorganic Crystal Transformation by Biomolecules: A New Understanding of Biomineralization”, J. Phys. Chem. B, 2009, 113, 10838-10844.
3 J.H. Tao, H.H. Pan, H.L. Zhai, J.R. Wang, L. Li, J. Wu, W.G. Jiang, X.R. Xu, R.K. Tang, “Controls of tricalcium phosphate single crystal formation from its amorphous precursor by interfacial energy”, Crystal Growth Des., 2009, 9, 3154-3160 .
4 R. Liu, X.R. Xu, Y.R. Cai, A.H. Cai, H.H. Pan, R.K. Tang, K. Cho, “Preparation of calcite and aragonite complex layer materials inspired from biomineralization” Crystal Growth Des., 2009, 9, 3095-3099.
5 A.H. Cai, X.R. Xu, H.H. Pan, J.H. Tao, R. Liu, R.K. Tang, K. Cho,“Direct Synthesis of Hollow Vaterite Nanospheres from Amorphous Calcium Carbonate Nanoparticles via Phase Transformation”,J. Phys. Chem. C,2008, 112, 11324-11330.
6 X.R. Xu, R. Liu , H.H. Pan , R.K. Tang, K. Cho, “Construction of coral-like complex: Controlled growth of vaterite submicron hairs on flat films and hemispheres”, J. Cryst. Growth., 2008, 310, 3049-3054.
7 徐旭荣,蔡安华,刘睿,潘海华,唐睿康,生物矿化中的无定形碳酸钙,化学进展,2008,20,54-59。
8 X.R. Xu, A.H. Cai, R. Liu, H.H. Pan, R.K. Tang, K. Cho, “The roles of water and polyelectrolytes in the phase transformation of amorphous calcium carbonate”, J. Cryst. Growth, 2008, 310, 3779-3787.
9 X.R. Xu, J.T. Han, D.H. Kim, K. Cho, “Two modes of transformation of amorphous calcium carbonate films in air”, J. Phys. Chem.B, 2006, 110, 2764-2770.
10 X.R. Xu, J.T. Han, K. Cho, “Deposition of amorphous calcium carbonate hemispheres on substrates”, Langmuir, 2005, 21 , 4801-4804.
11 J.T. Han, X.R. Xu, D.H. Kim, K. Cho, “Mosaic single crystal CaCO3 thin film fabrication on polymer substrate”, Advanced Functional Materials, 2005, 15, 475-480.
12 J.T. Han, X.R. Xu, D.H. Kim, K. Cho, “Biomimetic fabrication of vaterite films from amorphous calcium carbonate on polymer melt: Effect of polymer chain mobility and functionality”, Chemistry of Materials, 2005, 17, 136-141.
13 X.R. Xu, J.T. Han, K. Cho, “Formation of amorphous calcium carbonate thin films and their roles in biomineralization,” Chemistry of Materials, 2004, 16, 1740-1746.
14 X.R. Xu, J.T. Han, K. Cho, “Fabrication of a stable inorganic-organic hybrid multilayer film with uniform and dense inorganic nanoparticle deposition”, Chem. Comm., 2003, 8, 966.
15 X.R. Xu, J.T. Xu, L.X. Feng, “Impact properties of metallocene-catalyzed ethylene-alpha-olefin copolymers”, Chinese J. Polym. Sci., 2002, 20, 473.
16 X.R. Xu, J.T. Xu, L.X. Feng, “Tensile behaviour of homogeneous ethylene copolymers”, Polym. Int., 2002, 51, 458.
17 J.X. Xu, X.R. Xu, Q. Zhen, L.X. Feng, W. Chen “Dynamic rheological behaviors of metallocene-based ethylene-butene copolymers and their blends with low-density polyethylene”, Eur. Polym. J., 2002, 38, 365.
18 J.T. Xu, X.R. Xu, L.X. Feng, L.S. Chen, W. Chen, “Characterization of intramolecular composition heterogeneity of metallocene-based and conventional ethylene-butene copolymers using TREF/DSC ”, Macromol. Chem. Phys., 2001,202 , 1524-1530.
19 X.R. Xu, J.T. Xu, L.S. Chen, R.W. Liu, L.X. Feng, “Non-isothermal crystallization kinetics of ethylene-butene copolymer/low-density polyethylene blends”, J. Appl. Polym.Sci., 2001, 80,123 .
20 J.T. Xu, X.R. Xu, L.S. Chen, L.X. Feng, W. Chen, “Effect of composition distribution on miscibility and co-crystallization phenomena in the blends of low density polyethylene with conventional and metallocene-based ethylene-butene copolymers”, Polymer, 2001, 42, 3867.
21 X.R. Xu, J.T. Xu, L.X. Feng, W. Chen, “Effect of short chain-branching distribution on crystallinity and modulus of metallocene-based ethylene-butene copolymers”, J. Appl. Polym. Sci., 2000, 77, 1709.
22 J.T. Xu, X.R. Xu, L.S. Chen, L.X. Feng, “Effect of short chain branching distribution on crystallization of ethylene-butene copolymers”, J. Mater. Sci. Lett., 2000, 19, 1541.
23 J.T. Xu, X.R. Xu, L.S. Chen, L.X. Feng, “Short chain branching distributions of metallocene-based ethylene copolymers”, Eur. Polym. J., 2000, 36, 685.