基本情况 

姓名：张泽平

性别：男

出生年月：1988-10

籍贯：广东潮州

职位：副教授，硕士生导师

邮箱：zhangzp8@mail.sysu.edu.cn

通讯地址：广州市番禺区大学城中山大学东校区化学材料综合楼A750

邮编：510006

教育经历

1. 2012.09-2015.06：中山大学，高分子化学与物理，博士（导师：章明秋教授）
2. 2010.09-2012.06：中山大学，高分子化学与物理，硕士（导师：章明秋教授）
3. 2006.09-2010.06：中山大学，应用化学，学士

工作经历 

1. 2023.08-至    今：中山大学化学学院，副教授
2. 2017.08-2023.07：中山大学化学学院，特聘副研究员（合作导师：容敏智教授）
3. 2015.07-2017.07：中山大学化学学院，科研博士后（合作导师：容敏智教授）

科研方向 

长期从事基于动态可逆共价化学的自修复、可回收高分子及其复合材料的设计、构筑和性能调控，并探索相关高分子在结构与功能材料（如导热/导电材料、固态电解质、荧光/磷光高分子、柔性电子器件）等领域中的应用基础研究，已在Nat. Commun.、Adv. Mater.、Adv. Funct. Mater.、Prog. Polym. Sci.等国际国内期刊发表论文40余篇，2篇入选ESI高被引论文。

讲授课程

1.    本科生：高分子加工；高分子加工实验；化学与材料实践
2.    研究生：现代化学实验与技术I

学术职务

1.    2024.09-至    今：《Chinese Journal of Polymer Science》、《高分子学报》、《高分子通报》高分子三刊，青年编委

科研项目

1. 国家自然科学基金面上项目（52373095），2024.01-2027.12，主持
2. 国家自然科学基金面上项目（51973237），2020.01-2023.12，主持
3. 国家自然科学基金青年项目（51603235），2017.01-2019.12，主持
4. 广东省自然科学基金面上项目（2021A1515010417），2021.01-2023.12，主持
5. 广东省自然科学基金面上项目（2020A1515011276），2019.10-2022.09，主持
6. 广州市科技计划优秀博士“续航”项目（2025A0412436），2025.01-2026.12，主持
7. 广州市科技计划青年博士“启航”项目（202201011568），2022.04-2024.03，主持
8. 高校基本科研业务费中山大学青年教师培育项目（18lgpy41），2018-01至2020-12，主持
9. 中国博士后科学基金（2016M592561），2016.05-2017.07，主持

主要论著

1. Dai W. T.; Xie Z. H.; Ke Y. B.; You Y.*; Zhang Z. P.*; Rong M. Z.; Zhang M. Q. Microstructural convergence of subnetworks in reversibly interlocked polymer networks revealed by small-angle neutron scattering, Macromolecules 2025, 58, 5145–5152.
2. Wang Z. Y.; Cao Y.; Zhang L.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Robust non-sticky/sticky antifouling coating capable of temporal evolution, Appl. Mater. Today 2025, 42, 102611/1–12.
3. Pang X. Y.; Zhang Z. P.*; Liang F.; Liu S.*; Rong M. Z.; Zhang M. Q.* Reducing the interfacial thermal resistance between liquid crystal epoxy and hexagonal boron nitride: An investigation from molecular dynamics simulations at the atomic level to macroscopic properties, Compos. Part A-Appl. S. 2025, 192, 108766.
4. Huang Z. X.; Zhang T.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Highly ionic conductive, self-healing Li₁₀GeP₂S₁₂ filled composite solid electrolytes based on reversibly interlocked macromolecule networks for lithium metal batteries with improved cycling stability, ACS Appl. Mater. Interfaces 2024, 16, 42736−42747.
5. Deng W. W.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Versatile room temperature phosphorescence polymer with luminophore content as low as 0.05 wt%, Chem. Eng. J. 2024, 495, 153443.
6. Deng W. W.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Highly flexible yet strain-insensitive conjugated polymer, Mater. Horiz. 2024, 11, 4507–4518.
7. Li Y. M.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Breaking barries: Sunlight activated self-healing polymers with unprecedented photoaging resistance, SusMat 2024, 4, e227.
8. Mo W. J.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Photosensitive polyimide enabled simple, reversible and environmentally friendly selective metallization on diverse substrates, Appl. Mater. Today 2024, 38, 1021594.
9. Zhang Z. P.; Rong M. Z.; Zhang M. Q.* Self-healable functional polymers and polymer-based composites, Prog. Polym. Sci. 2023, 144, 101724. (高被引论文)
10. Li Y. M.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Sunlight stimulated photochemical self-healing polymers capable of re-bonding damages up to a centimeter below the surface even out of the reach of the illumination, Adv. Mater. 2023, 35, 2211009.
11. Li Y. M.; Zhang Z. P.*; Rong M. Z.; Zhang M. Q. Tailored modular assembly derived self-healing polythioureas with largely tunable properties covering plastics, elastomers and fibers. Nat. Commun. 2022, 13, 2633.
12. Huang Z. X.; Xie Z. H.; Zhang Z. P.*; Zhang T.; Rong M. Z.*; Zhang M. Q.* Highly ionic conductive, self-healable solid polymer electrolyte based on reversibly interlocked macromolecule networks for lithium metal batteries workable at room temperature. J. Mater. Chem. A 2022, 10, 18895−18906.
13. Xiao H., Chen F., Zhang Z. P.*, Rong M. Z.*, Zhang M. Q.* Dihydromyricetin modification of boron nitride micro-sheets and construction of multilayer thermal conduction pathways in glass fiber reinforced epoxy composites, Compos. Part B-Eng. 2021, 215, 108770.
14. Xiao H., Huang Z. X., Zhang Z. P.*, Rong M. Z.*, Zhang M. Q.* Highly thermally conductive flexible copper clad laminates based on sea-island structured boron nitride/polyimide composites, Compos. Sci. Technol. 2021, 230, 109087.
15. Chen F.; Xiao H.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Thermally conductive glass fiber reinforced epoxy composites with intrinsic self-healing capability. Adv. Compos. Hybrid Mater. 2021, 4, 1048−1058.
16. Peng W. L.; Zhang Z. P.*; Rong M. Z.*; Zhang M. Q.* Reversibly interlocked macromolecule networks with enhanced mechanical properties and wide pH range of underwater self-healability. ACS Appl. Mater. Interfaces 2020, 12, 27614−27624.
17. Zhang Z. P.; Rong M. Z.*; Zhang M. Q.* Polymer engineering based on reversible covalent chemistry: A promising innovative pathway towards new materials and new functionalities. Prog. Polym. Sci. 2018, 80, 39−93. (高被引论文)
18. Zhang Z. P.; Rong M. Z.*; Zhang M. Q.* Mechanically robust, self-healable, and highly stretchable “living” crosslinked polyurethane based on a reversible C−C bond. Adv. Funct. Mater. 2018, 28, 1706050.