quanguipeng
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- Lecturer
- Supervisor of Master's Candidates
- Name (Pinyin):quanguipeng
- Date of Birth:1995-11-02
- E-Mail:
- Date of Employment:2025-07-18
- School/Department:化学与生命科学学院
- Administrative Position:教师
- Education Level:With Certificate of Graduation for Doctorate Study
- Business Address:化学化工楼A314
- Degree:Doctoral Degree in Science
- Professional Title:Lecturer
- Status:Employed
- Alma Mater:长春工业大学
- Teacher College:化学与生命科学学院
- Discipline:Polymer Chemistry and Physics
Contact Information
- PostalAddress:
- Email:
- Paper Publications
- 第一作者,Cellulose nanofiber-induced metal-organic framework “armor” for the fabrication of carbon fibre composites with enhanced mechanical properties and electrical conductivity.Chemical Engineering Journal.
- 第一作者,Construction of cellulose nanofiber/carbon nanotube synergistic network on carbon fiber surface to enhance mechanical properties and thermal conductivity of composites.Composites Science and Technology.
- 第一作者,Layer-by-layer assembly of biomimetic fish scale structure on carbon fiber surfaces to improve thermal conductivity and mechanical properties of composites.Applied Surface Science.
- 第一作者,Growth of ZnO nanorods/flowers on the carbon fiber surfaces using sodium alginate as medium to enhance the mechanical properties of composites.International Journal of Biological Macromolecules.
- 第一作者,Polydopamine-induced biomimetic mineralization strategy to generate hydroxyapatite for the preparation of carbon fiber composites with excellent mechanical properties.International Journal of Biological Macromolecules.
- 第一作者,Bio‐inspired metal ion coordination cross‐linking synergistic strategy to enhance the interfacial properties of carbon fiber composites.Polymer Composites.
- 第一作者,Construction of graphene oxide/carbon nanotubes/silver nanowires “three-in-one” multicomponent synergistic network to enhance the mechanical and thermal conductivity of carbon fibre composites.Applied Surface Science.
- 第一作者,Bio-inspired interfacial crosslinking reinforcement strategy to construct “soft-hard” structure for improving the interfacial properties of carbon fiber composites.Applied Surface Science.
- 第一作者,Heparin and carboxymethyl chitosan synergistically enhance the antimicrobial properties and biocompatibility of activated carbon fiber dressing for accelerating wound healing.Colloids and Surfaces A.
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