Research Fields:

1. Polymer chemistry.   2. Antibacterial materials  3. Biodegradable materials

Current Courses：

1. Polymer Chemistry
2. Advanced Organic Chemistry
3. Polymer Synthesis Chemistry
 

Projects:

1) NSFC 51773153 Design, Synthesis and Properties of Antibacterial Peptides. (2018.1-2021.12)
2) NSFC 21274110 Synthesis Antimicrobial Peptide Amphiphilic Copolymers and Self-assemble to Form Antimicrobial-peptide-vesicles (2013.1-2016.12)
 

Publications：

1) Zhou X. Y., He J., Zhou C. C.* Strategies from Nature: Polycaprolactone-based Mimetic Antimicrobial Peptide Block Copolymers with Low Cytotoxicity and Excellent Antibacterial Efficiency. Polymer Chemistry 2019, 10(8): 945-953
2) Zhou X. Y., Su X. K., Tan Z. Z., Zhou C. C.*. Synthesis of triblock amphiphilic copolypeptides with excellent antibacterial activity. European Polymer Journal 2018, 106: 175-181.
3) Zhou X. Y., Su X. K., Zhou C. C.* Preparation of diblock amphiphilic polypeptide nanoparticles for medical applications. European Polymer Journal 2018, 100: 132-136.
4) Zhou X. Y., Zhou C. C.* Design, Synthesis and Applications of Antimicrobial Peptides and Antimicrobial Peptide-Mimetic Copolymers , Progress in Chemistry 2018, Vol.30(7): 913-920.
5) Zhou, C. C., Yuan Y. Zhou P. Y., Wang F. Y. K., Hong Y. X., Wang N. S., Xu S. G., Du J. Z. Highly Effective Antibacterial Vesicles Based on Peptide-Mimetic Alternating Copolymers for Bone Repair, Biomacromolecules 2017, 18, 4154–4162.
6) Zhou C. C.*, Zhou X. Y, Su X. K. Noncytotoxic polycaprolactone-polyethyleneglycol-ε-poly (l-lysine) triblock copolymer synthesized and self-assembled as an antibacterial drug carrier. RSC Advances 2017, 7(63): 39718-39725.
7) Su X. K., Zhou, X. Y, Tan, Z. Z., Zhou, C. C.* Highly efficient antibacterial diblock copolypeptides based on lysine and phenylalanine, Biopolymers 2017, 107(11), e23041