郭智妍，女，中国科学技术大学苏州高等研究院特任副研究员。先后在华中师范大学和中国科学技术大学取得学士和博士学位；研究领域为环境功能材料的设计与调控、高级氧化技术去除水体新兴污染物等。近5年在国际学术期刊发表论文共17篇，申请发明专利6件，其中以第一/通讯作者（含共同一作）在Nat. Commun., Proc. Natl. Acad. Sci.（2篇）, Angew. Chem., Environ. Sci. & Technol.等国际高水平期刊发表论文共6篇（1篇封面论文，2篇ESI高被引论文）。曾获中科院院长特别奖、中科院优秀博士学位论文奖、奥加诺（水质与水环境）奖学金、唐孝炎环境科学奖学金等荣誉奖项，获博士后科学基金面上资助和特别资助，入选江苏省卓越博士后计划、国际水协IWA新星计划。

电子邮箱：gzy2018@ustc.edu.cn

联系地址：中国科学技术大学苏州高等研究院亲民楼207

个人主页：https://www.researchgate.net/profile/Guo-Zhiyan

主要研究方向：

1. 非均相类芬顿催化材料的设计与调控

2. 电催化定向活化分子氧

3. 水中新兴污染物的选择性催化转化

学术论文：

1、  Yan Meng, Yu-Qin Liu, Chao Wang, Yang Si, Yun-Jie Wang, Wen-Qi Xia, Tian Liu, Xu Cao, Zhi-Yan Guo*, Jie-Jie Chen, Wen-Wei Li*. Nanoconfinement Steers Nonradical Pathway Transition in Single Atom Fenton-like Catalysis for Improving Oxidant Utilization. Nature Communications 2024, 15: 5314.

2、  Zhi-Yan Guo†, Rongbo Sun†, Zixiang Huang†, Xiao Han, Haoran Wang, Cai Chen, Yu-Qin Liu, Xusheng Zheng, Wen-Jun Zhang, Xun Hong*, Wen-Wei Li*, Crystallinity Engineering for Overcoming the Activity-stability Tradeoff of Spinel Oxide in Fenton-like Catalysis. Proceedings of the National Academy of Sciences 2023, 120, e2220608120.

3、  Zhi-Yan Guo, Yang Si, Wen-Qi Xia, Fan Wang, Hou-Qi Liu, Cheng Yang, Wen-Jun Zhang, and Wen-Wei Li*. Electron delocalization triggers nonradical Fenton-like catalysis over spinel oxides. Proceedings of the National Academy of Sciences 2022, 119, e2201607119.

4、  Zhi-Yan Guo, Chen-Xuan Li, Miao Gao, Xiao Han, Ying-Jie Zhang, Wen-Jun Zhang, and Wen-Wei Li*. Mn-O Covalency Governs the Intrinsic Activity of Co-Mn Spinel Oxides for Boosted Peroxymonosulfate Activation. Angew. Chem. Int. Ed. 2021, 60, 274–280.

5、  Yang Si,† Zhi-Yan Guo,† Yan Meng, Hui-Hui Li, Lin Chen, Ai-Yong Zhang,*, Chao-Hai Gu, Wen-Wei Li,* Han-Qing Yu. Reusing Sulfur-Poisoned Palladium Waste as Highly-Active and -Selective Heterogeneous Fenton-Like Catalyst for Phenolic Pollutants Degradation. Environ. Sci. Technol, 2022, 56, 564–574.

6、  Miao Gao,† Zhi-Yan Guo,† Xing-Yi Wang, and Wen-Wei Li*. Self-Supported, Sulfate-Functionalized Nickel Hydroxide Nanoplates with Enhanced Wettability and Conductivity for Use in High-Performance Supercapacitors. ChemSusChem, 2019, 12, 5291-5299.