研究领域
1) the development of novel surface engineering techniques for chemically inert semicrystalline polymers; 2) the development of new biocidal and biocompatible materials; and 3) micro- and nano-encapsulation of bioactive agents for their targeted and controlled delivery
近期论文
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Li, L.; Li, J.; Kulkarni, A.; Liu, S. Polyurethane (PU)-derived photoactive and copper-free clickable surface based on perfluorophenyl azide (PFPA) chemistry. Journal of Material Chemistry B 2013; 1: 571–582.
Li, J.; Lin, F.; Li, L.; Li, J.; Liu S. Surface-engineering of poly(ethylene terephthalate) (PET) for durable haemocompatibility via a surface interpenetrating network technique. Macromolecular Chemistry & Physics 2012; 213(20): 2120–2129.
He, W.; Gu, X.; Liu, S. Surfactant-free One Step Synthesis of Dual-functional Polyurea Microcapsule: Contact Infection Control and Drug Delivery. Advanced Functional Materials 2012; 22(19): 4023-31. (2011 Journal Impact Factor: 10.179).
Li, L.; Pu, T.; Zhanel, G.; Zhao, N.; Ens, W.; Liu, S. New biocide with both N-chloramine and quaternary ammonium salt moieties exerts enhanced bactericidal activity. Advanced Healthcare Materials 2012; 1(5): 609-620.
Li, L.; Zhao, N.; Liu, S. Versatile Surface Biofunctionalization of Poly(ethylene terephthalate) (PET) by Interpenetrating Polymerization of a butynyl Monomer Followed by “Click” Chemistry. Polymer 2012; 53(1): 67-78.
Zhao, N.; Logsetty, S.; Liu, S. Durability of N-halamine Biocide to Ethylene Oxide Sterilization. Journal of Burn Care & Research 2012; 33(4):e201-6.
Zhao, N.; Liu, S. Thermoplastic Semi-IPN of Polypropylene (PP) and Polymeric N-halamine for Efficient and Durable Antibacterial Activity. European Polymer Journal, 2011; 47 (8):1654-1663.
Zhao, N.; Zhanel, G.G.; Liu, S. Regenerability of Antibacterial Activity of Interpenetrating Polymeric N-halamine and Poly(ethylene terephthalate). Journal of Applied Polymer Science, 2011;120(1): 611–622.
Rudenja, S.; Zhao, N.; Liu, S. Surface Interpenetrating Networks of Polyacrylamide in Poly(ethylene terephthalate) as a Means of Surface Modification. European Polymer Journal, 2010; 46(10):2078-2084.
Liu, S.; Zhao, N.; Rudenja, S. Surface Interpenetrating Networks of Poly(ethylene terephthalate) and Polyamides for Effective Biocidal Property. Macromolecular Chemistry and Physics 2010; 211(3):286-296.
Liu, S.; Sun, G. New Refreshable N-Halamine Polymeric Biocides: N-Chlorination of Acyclic Amide Grafted Cellulose. Industrial and Engineering Chemistry Research 2009; 48(2): 613-618.
Liu, S.; Sun, G. Functional Modification of Poly(ethylene terephthalate) with an Allyl Monomer: Chemistry and Structure Characterization. Polymer 2008; 49(24): 5225-5232.
Liu, S.; Sun, G. Radical Graft Functional Modification of Cellulose with Allyl Monomers: Chemistry and Structure Characterization. Carbohydrate Polymers 2008; 71(4):614-625.
Liu, S.; Sun, G. Biocidal Acyclic Halamine Polymers: Conversion of Acrylamide-Grafted-Cotton to Acyclic Halamine. Journal of Applied Polymer Science 2008; 108(6): 3480-3486.
Liu, S.; Sun, G. Durable and Regenerable Biocidal Polymers: Acyclic N-Halamine Cotton Cellulose. Industrial & Engineering Chemistry Research 2006; 45:6477-6482.