周生洋,2021年于瑞典乌普萨拉大学Ångström实验室获得博士学位,随后留校任研究员(Researcher),并主持瑞典Åforsk青年研究基金(Early-Career Researcher Grant)。2023年加入四川大学材料科学与工程学院,任特聘研究员,先进高分子材料工程全国重点实验室固定人员。入选国家教育部海外专项人才计划、四川省高层次青年人才计划、四川大学双百人才计划。主持国家科技重大专项基金子课题、国家自然科学基金、四川省自然科学基金、先进高分子材料全国重点实验室优秀青年科学基金等。指导本科生发表多篇SCI研究论文、获批多项国家级大学生创新创业项目、多次获得四川大学优秀本科毕业论文、四川大学优秀毕业生等;指导研究生多次在重要学术会议中荣获最佳墙报奖、多次获得国家奖学金、四川大学一等学业奖学金、四川大学优秀毕业研究生等。
多孔材料是现代材料科学中重要的前沿研究领域,其孔道结构与性质决定了物质、能量及各种作用载体在微观空间中的传输与调控。从原子级微孔到宏观孔道,不仅影响分子、离子和电子等多尺度物质的迁移,还能决定光、电、热等多种能量的传输路径。通过精细设计孔径、连通性、多级结构及孔内化学环境,可以赋予材料新功能,同时为材料的分离性、选择性、机械强度、热稳定性、光电响应性、环境适应性等多种宏观性能的优化与提升提供了前所未有的可能。我们实验室目前主要聚焦于晶态多孔材料的结构设计、加工成型与性能调控研究。依托上海同步辐射光源开展材料的高通量结构表征,实现从原子尺度到宏观尺度的多维表征与分析;致力于开发新型加工方法学,通过对孔道结构的精准设计和成型,控制物质筛分、迁移及反应行为,优化多场协同效应和功能表现,实现物质与能量的高效传输;充分挖掘多孔材料在能源技术、环境保护、生命科学、信息技术等关键或基础领域的应用潜力。
我们实验室具有“自由、自律、透明、平等、规范”的科研氛围,尊重每一位同学的性格,
鼓励每位同学按照兴趣发展。欢迎对我们研究方向感兴趣的研究生和本科生加入实验室!
联系邮箱:shengyang.zhou“at”scu.edu.cn (replace “at” with @)
联系地址:四川大学望江校区先进材料科研大楼2301
具体研究方向及近期代表成果
一、晶态多孔材料加工方法学及应用
1. Yilin Zhang, Zhixiang Dai, Zihan Tan (2021级本科生), Hongli Yang, Chao Xu, Shengyang Zhou*, Zhong-Ming Li. Unveiling the electron-phonon coupling anisotropy in 2D covalent organic frameworks.
Chemical Science 2026, 17, 3708-3718.
2. Shengyang Zhou*, Tianqi Liu, Maria Strømme, Chao Xu. Electrochemical Doping and Structural Modulation of Conductive Metal-Organic Frameworks.
Angewandte Chemie International Edition 2024, e202318387.
3. Shengyang Zhou, Zhen Qiu, Maria Strømme, Chao Xu. Solar-driven ionic power generation via a film of nanocellulose @ conductive metal-organic framework.
Energy & Environmental Science 2021, 14, 900-905.
4. Shengyang Zhou, Varvara Apostolopoulou-Kalkavoura, Marcus Vinícius Tavares da Costa, Lennart Bergström, Maria Strømme, Chao Xu. Elastic aerogels of cellulose nanofibers@ metal-organic frameworks for thermal insulation and fire retardancy.
Nano-Micro Letters 2020, 12, 1-13.
5. Shengyang Zhou, Xueying Kong, Bing Zheng, Fengwei Huo, Maria Strømme, Chao Xu. Cellulose Nanofiber@ Conductive Metal-Organic Frameworks for High-Performance Flexible Supercapacitors.
ACS Nano 2019, 13, 9578-9586.
二、聚合物多尺度加工成型及应用
1. Fan Chen (2022级本科生), Xuan Li, Shi‐Peng Chen, Yilin Zhang, Hua‐Dong Huang, Hongli Yang, Shengyang Zhou*, Zhong‐Ming Li. Tough Cellulose Hydrogel Electrolyte with Low Solvation for Highly Reversible and Flexible Aqueous Zinc‐Ion Battery.
Advanced Science 2025, 12, e11759.
2. Xuan Li, Fan Chen (2022级本科生), Yuhuan Ye (2022级本科生), Chenyu Wang (2022级本科生), Guoli Ding (2022级本科生), Yilin Zhang, Xiquan Xiao, Lei Li, Zhi‐Guang Guo, Li‐Chuan Jia, Jun Lei, Gan‐Ji Zhong, Hongli Yang, Shengyang Zhou*, Zhong‐Ming Li. A mesoporous ferroelectric separator for inner Helmholtz plane homogenization enabling zinc anode with high reversibility.
Small 2025, 21, 2501855.
3. Shengyang Zhou*, Yilin Zhang, Xuan Li, Chao Xu, Joseph Halim, Shuai Cao, Johanna Rosen, and Maria Strømme. A mechanically robust spiral fiber with ionic-electronic coupling for multimodal energy harvesting.
Materials Horizons 2024, 11, 3643-3650.
4. Shengyang Zhou, Zhen Qiu, Maria Strømme, Zhaohui Wang. Highly Crystalline PEDOT Nanofiber Templated by Highly Crystalline Nanocellulose.
Advanced Functional Materials 2020, 2005757.
5. Shengyang Zhou, Leif Nyholm, Maria Strømme, Zhaohui Wang. Cladophora Cellulose: Unique Biopolymer Nanofibrils for Emerging Energy, Environmental, and Life Science Applications.
Accounts of Chemical Research 2019, 52, 2232-2243.
三、基于同步辐射光源的高通量材料表征
1. Hongli Yang, Hua-Dong Huang, Jun Lei, Shengyang Zhou*, Gan-Ji Zhong, and Zhong-Ming Li. Understanding the inhibitory effect of cavity evolution on the rapid fracture of polylactide with oriented texture.
Polymer 2024, 298, 126932.
2. Shengyang Zhou, Niu Ben, Xie Xu-Long, Ji Xu, Zhong Gan-Ji, and Li Zhong-Ming. Interfacial Shish-Kebabs Lengthened by Coupling Effect of In Situ Flexible Nanofibrils and Intense Shear Flow: Achieving Hierarchy to Conquer the Conflicts between Strength and Toughness of Polylactide.
ACS Applied Materials & Interfaces 2017, 9, 10148-10159.
3. Shengyang Zhou, Biao Yang, Yue Li, Xin-Rui Gao, Xu Ji, Gan-Ji Zhong, and Zhong-Ming Li. Realization of ultra-high barrier to water vapor by 3D-interconnection of super-hydrophobic graphene layers in polylactide films.
Journal of Materials Chemistry A 2017, 5, 14377-14386.
4. Shengyang Zhou, Hua-Dong Huang, Xu Ji, Ding-Xiang Yan, Gan-Ji Zhong, Benjamin S. Hsiao, and Zhong-Ming Li. Super-robust polylactide barrier films by building densely oriented lamellae incorporated with ductile in situ nanofibrils of poly (butylene adipate-co-terephthalate).
ACS Applied Materials & Interfaces 2016, 8, 8096-8109.
5. Shengyang Zhou, Hua-Dong Huang, Ling Xu, Zheng Yan, Gan-Ji Zhong, Benjamin S. Hsiao, and Zhong-Ming Li. In situ nanofibrillar networks composed of densely oriented polylactide crystals as efficient reinforcement and promising barrier wall for fully biodegradable poly (butylene succinate) composite films.
ACS Sustainable Chemistry & Engineering 2016, 4, 2887-2897.
更多发表论文详见:
ORCID: https://orcid.org/0000-0003-1032-6314
ResearchGate: https://www.researchgate.net/profile/Shengyang-Zhou-2
Google Scholar: https://scholar.google.se/citations?user=V17WG_wAAAAJ&hl=en
