一、个人基本信息
刘冠宇,男,长安大学交通运输工程专业博士。主要研究方向:交通功能材料、光催化降解尾气材料、功能型路面及自清洁材料设计。
二、其他学习、工作经历:
2022.08-至今 河北大学,建筑工程学院,副教授(低职高聘)
2016.09-2022.06 长安大学,交通运输工程专业,博士(硕博连读)
三、主讲课程:
《交通工程》、《土木工程材料》、《土木工程专业英语》
四、发表论文情况:(包括论文题目、发表时间等)
1. Guanyu Liu *, Hailiang Fei *, Jiaxu Zhang, Jiayu Wu, Zhen Feng, Sanqiang Yang, Fen Li, Yuanwen Zhang *, Enhancement mechanism for mechanical and water purification performance of piezo-photocatalytic recycled aggregate pervious concrete containing hydrophobic BiOI/BaTiO3, Chemical Engineering Journal, 2024, 493: 152596. (SCI 1区)
2. Guanyu Liu*, Hailiang Fei, Zhen Feng, Qian Shao, Tianzheng Zhao, Wenya Guo, Fen Li Tri-phase interface to enhance the performance of piezoelectric photocatalysis and recyclability of hydrophobic BiOI/BaTiO3 heterojunction, Journal of Cleaner production, 2024, 440: 140886. (SCI 1区)
3. Hailiang Fei, Tianzheng Zhao, Wenya Guo, Xingyue Wang, Jiaxu Zhang, Ziyi Fei, Zhen Feng *, Guanyu Liu*, Strategies for enhancing activities of typical piezo-photocatalytic material and its applications in environmental remediation: A review, Journal of Environmental Chemical Engineering, 2024, 12: 111650. (SCI 2区)
4. Guanyu Liu*, Tianzheng Zhao, Hailiang Fei, Fen Li, Wenya Guo, Zhaolin Yao, Zhen Feng, A review of various self-cleaning surfaces, durability and functional applications on building exteriors, Construction and Building Materials, 2023, 409: 134084. (SCI 1区)
5. F. Li, G.Y. Liu*, F.Q. Liu, S.Q. Yang, A review of self-cleaning photocatalytic surface: Effect of surface characteristics on photocatalytic activity for NO. Environmental Pollution, 2023, 327:121580. (SCI 2区)
6. F. Li, G.Y. Liu*, F.Q. Liu, J.Y. Wu, S.Q. Yang, Synergetic effect of CQD and oxygen vacancy to TiO2 photocatalyst for boosting visible photocatalytic NO removal. Journal of Hazardous Materials, 2023, 452: 131237. (SCI 1区) 高被引论文
7. F. Li, G.Y. Liu*, F.Q. Liu, S.Q. Yang, A WO3–TiO2 nanorod/CaCO3 photocatalyst with degradation-regeneration double sites for NO2-inhibited and durable photocatalytic NO, Chemosphere, 2023, 324: 138277. (SCI 2区)
8. G.Y. Liu, H.Y. Xia *, M.J. Yan, L.F. Song, Li H., Y.H. Niu * Performance and mechanism of self-cleaning synergistic photocatalytic coating inhibiting NO2 for green degradation of NO, Applied Surface Science, 2022, 586: 152787. (SCI 1区)
9. G.Y. Liu, H.Y. Xia *, W.S. Zhang, L.F. Song, Q.W. Chen, Y.H. Niu * Improvement mechanism of NO photocatalytic degradation performance of self-cleaning synergistic photocatalytic coating under high humidity. Journal of Hazardous Materials, 2021,418:126337. (SCI 1区)
10. G.Y. Liu, H.Y. Xia *, W.S. Zhang, L. Lang, H.P. Geng, L.F .Song, Y.H. Niu * Photocatalytic superamphiphobic coatings and the effect of surface microstructures on superamphiphobicity. ACS Applied Materials & Interface, 2021, 13:12509-12520. (SCI 1区)
11. G.Y. Liu, H.Y. Xia *, Y.H. Niu, X. Zhao, G.T. Zhang, L.F. Song, H.X. Chen * Fabrication of self-cleaning photocatalytic durable building coating based on WO3-TNs/PDMS and NO degradation performance. Chemical Engineering Journal,2021, 409:128187. (SCI 1区)
12. G.Y. Liu, H.Y. Xia *, Y.H. Niu, X. Zhao, G.T. Zhang, L.F. Song, H.X. Chen * Photocatalytic performance of doped TiO2/AC coating and its UV stability research. Progress in Organic Coatings, 2020, 148:105882. (SCI 2区)
13. G.Y. Liu, H.Y. Xia, Y.H. Niu *, M.J. Yan, H. Li, L.F. Song Preparation and performance of photocatalytic NO degradation superhydrophobic coatings for tunnel. Environmental Science and Pollution Research, 2022, 29:53420–53432 (SCI 3区)
14. H.Y. Xia *, G.Y. Liu, R. Zhang, L.F. Song, H.X. Chen * The Photocatalytic Degradation of Vehicle Exhausts by an Fe/N/Co-TiO2 Waterborne Coating under Visible Light. Materials (Basel). 2019, 12:3378. (SCI 3区)
15. H.Y. Xia *, G.Y. Liu, C. Zhao, X.J. Meng, F.F. Li, F.Y. Wang, L. Duan, H.X. Chen * Fluorescence sensing of amine vapours based on ZnS-supramolecular organogel hybrid films. RSC Advance. 2017, 7:17264. (SCI 3区)
16. 夏慧芸,赵旭,刘冠宇,张瑞,宋莉芳,邢明亮,陈华鑫.自清洁阻燃型可见光催化降解汽车尾气涂层的制备及性能研究. 硅酸盐通报. 2019, 3:589-595.(CSCD)
17. 夏慧芸,刘冠宇,宋莉芳,张晓,陈华鑫.无溶剂法评价高RAP和RAS掺量的沥青混合料性能.中外公路. 2018, 38(3): 248-253.(北大核心)
五、获得项目情况:(包括项目名称、项目级别、项目资助额度、获得项目时间等)
1. 河北省自然科学基金, 压电光催化降解汽车尾气路面材料设计及协同催化机理研究,4.0万元,2023.01-2025.12。主持
2. 隧道自洁光催化降解NOx涂层的制备、性能及机理研究,河北大学高层次人才引进(2022),50万元,2022.11-2026.11。主持
3. 优秀博士研究生创新能力培养资助项目,优秀博士研究生创新能力培养资助项目,3.0万元,2021.03-2022.03。主持
4. 自清洁阻燃型可见光催化降解汽车尾气涂层,西安市科技计划项目,15万元,2017.10-2019.12,参与
5. 可见光催化TiO2尾气吸收涂层的制备及性能,陕西省青年基金,3.0万元,2017.01-2018.12。参与
6. 氨功能化与碱金属掺杂对MOF膜CO2吸附分离性能的协同机制,国家自然科学基金,21万元,2016.01-2018.12。参与
六、学术兼职
1. 中国公路学会会员
2. 保定市青年智库专家
3. Nano Letter、Chemical Engineering Journal、Journal of Environmental Chemical Engineering、ournal of Photochemistry & Photobiology A: Chemistry、Journal of Sol-Gel Science and Technology、Applied Physics A等审稿人。
七、授权专利情况:(包括名称、时间、专利号)
1. 一种铁、氮、钴共掺杂的二氧化钛/活性炭复合物、制备方法及其作为光催化剂应用. CN 110252375 B, 2021-06-29.
2. 一种用于测定光催化降解污染物速率的装置. CN 209549171 U, 2019-10-29.
3. 光催化涂层降解汽车尾气性能的测试装置. 陕西:CN 206074530 U, 2017-04-05.
邮箱地址:liugy@hbu.edu.cn
电话:16602912220