个人简介

Xiaosong Wang carries out research in nanotechnology, polymer chemistry and supramolecular chemistry. His research involves the development of new synthetic strategies for self-assembled functional nanomaterials using macromolecules as major building blocks. His expertise includes living polymerization, water-soluble polymers, and metallopolymers. Macromolecules Self-assembly Nanomaterials Organometallic Living polymerization Safety Committee, 2015-2016 Science Faculty Council committee member, 2013-2014 1998 PhD Polymer Chemistry, East China University of Science and Technology, China 1994 MSc Polymer Chemistry, Zhejiang University, China 1990 BSc Chemistry, Hangzhou University, China

研究领域

Xiaosong Wang develops innovative synthetic techniques for high value-added nanomaterials. He conducts the research via fundamental exploration into newly emerged supramolecular chemistry. His research takes advantage of well developed organometallic and polymer chemistry in an attempt to incorporate the properties of metal elements (catalytic, magnetic, electronic etc.) and macromolecules (mechanical, processible) into functional nanomaterials. His efforts have made a number of breakthroughs in synthetic techniques, including Migration Insertion Polymerization (MIP), Miniemulsion Periphery Polymerization (MEPP) and Living Self-Assembly (LSA). He is currently exploring functional nanomaterials using the concepts and techniques developed in his research group.

We intend to develop innovative synthetic techniques for high value-added nanomaterials. We conduct the research via fundamental exploration into newly emerged supramolecular chemistry. Particularly, our research takes advantage of well developed organometallic and polymer chemistry in an attempt to incorporate the properties of metal elements (catalytic, magnetic, electronic etc.) and macromolecules (mechanical, processible) into functional nanomaterials. Our effort has made a number of breakthroughs in synthetic techniques, including Migration Insertion Polymerization (MIP), Miniemulsion Periphery Polymerization (MEPP) and Living Self-Assembly (LSA). We are currently exploring functional nanomaterials using the concepts and techniques developed in the group. Migration Insertion Polymerization (MIP) Miniemulsion Periphery Polymerization (MEPP) Living Self-Assembly (LSA)

近期论文

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Wang, X. S.; Cao, K.; Liu, Y. B.; Tsang B, Liew S. Migration Insertion Polymerization (MIP) of Cyclopentadienyldicarbonyldiphenylphosphinopropyliron (FpP): A New Concept for Main Chain Metal-Containing Polymers (MCPs), J. Am. Chem. Soc. 2013, 135, 3399-3402. Cao, K.; Murshid, N.; Li, L.; Tam, K. C.; Wang, X. S. Hydration of Hydrophobic Iron-Carbonyl Homopolymers via Water Carbonyl Interaction: Creation of Uniform Organometallic Vesicles in Water, Macromolecules, 2015, 48, 7968–7977. Murshid, N.; Yuyama K.; Wu, S. L.; Wu, K. Y.; Masuhara, H. Wang, C. L.; Wang, X. S. Highly-Integrated, Laser Manipulable Aqueous Metal Carbonyl Vesicles (MCsomes) with Aggregation-Induced Emission (AIE) and Aggregation-Enhanced IR Absorption (AEIRA), J. Mater. Chem. C, 2016, Advance Article, DOI: 10.1039/C6TC01222A. Liang, G. D.; Xu, J. T.; Wang, X. S. Synthesis and Characterization of Organometallic Coordination Polymer Nanoshells of Prussian Blue using Miniemulsion Periphery Polymerization (MEPP), J. Am. Chem. Soc. 2009, 131 (15), 5378–5379. Wang, X. S.; Guerin, G.; Wang, H.; Wang, Y. S.; Manners, I.; Winnik, M. A. Formation of Cylindrical Block Copolymer Micelles and Co-Micelles of Controlled Length and Architecture, Science 2007, 317, 644-647.