环境科学系
张清哲
职称:研究员
办公室:会文北楼
邮箱:qzz@sdu.edu.cn
电话:0532-5863 0978
个人简介
研究方向
教育经历
科研项目
代表性论文
详细信息

   

张清哲,1990年12月生,山东济宁人,博士,研究员,博士生导师。必赢线路检测3003no1齐鲁青年学者泰山学者青年专家,山东省海外优青,山东省高层次人才,山东省海外科技人才,中国能源学会新能源专家委员、中国感光学会光催化专家委员、“科创中国”入驻专家、济南市科协科技创新智库专家。兼任学院分析测试中心主任、环境与健康研究所党支部书记。

主要从事于能源和环境催化、新污染物(PFAS等)治理及光化学转化环境功能纳米材料开发等研究工作。已在ACS Catal., Adv. Funct. Mater., Nat. Commun., Adv. Energy Mater., ACS Energy Lett., Chem. Mater.Appl. Catal. B-Environ.等国际知名期刊发表学术论文56篇,撰写书章节1篇,申请美国、加拿大和国际专利1项,获授权中国发明专利4项。在国际学术会议作口头报告27次,其中特邀报告13次。详情见个人主页

为学生和博士后等营造自由、平等的学术氛围,提供多元化的国内、国际合作平台(有意向者可推荐出国深造)。欢迎对环境功能纳米材料、水处理、新污染物治理、环境光催化、界面光热转化、痕量重金属光化学转化等研究感兴趣的同学加入!

联系方式

邮箱:qzz@sdu.edu.cn

电话:0532-5863 0978

地址:青岛即墨滨海路72号必赢线路检测3003no1会文北楼

学习及工作经历

2021.09至今

必赢线路检测3003no1 必赢线路检测3003no1

研究员

2020.05 – 2021.07

加拿大国立科学研究院(INRS)

博士后

2015.09 – 2020.04

加拿大国立科学研究院(INRS)

博士

研究兴趣

新污染物(PFAS等)分析及治理

水中低浓度、难降解有机污染物催化去除及机理探究

太阳能驱动的新型环境功能纳米材料开发:1)光催化实现绿色能源(如氢气等)生产、污染物去除及资源化利用2)界面光热转化实现海水淡化及饮用水深度净化

水环境中痕量重金属的光化学转化过程及脱毒机制

学术兼职

Chinese Chemical Letters(IF: 9.4)青年编委;

Nanomaterials(IF: 4.4)编委、客座编辑;

Nano Materials ScienceIF: 12.6)青年编委;

Materials FuturesIF: 12)青年编委;

Applied Research青年编委;

《工业水处理》青年编委;

ES&TAdvanced MaterialsApplied Catalysis B: Environmental等20余家学术期刊审稿人;

美国化学会,美国材料学会,美国陶瓷学会,加拿大化学会,中国化学会等会员

中国能源学会新能源专家委员、中国感光学会光催化专家委员;

济南市科协科技创新智库专家;

“科创中国”入驻专家;

国家留学基金委(CSC)、国家自然科学基金、中国博士后面上基金、教育部学位与研究生教育发展中心、青岛市多政府部门等评审专家。

讲授课程

本科生:《现代环境分析技术》《工程制图及CAD基础》《水污染控制工程实验》《环境工程原理实验》《生产实习》

研究生:《环境材料分析及表征技术》

荣誉及奖励

(1)2022年中国分析测试协会科学技术奖(CAIA奖)一等奖,2023.02

(2)加拿大卓越学位论文奖(加拿大工程、医学和自然科学领域每年仅1人获得),2022.04

3)加拿大魁北克自然科学与工程研究基金会-博士研究奖省排名第2),2019.05

(4)加拿大魁北克自然科学与工程研究基金会-研究新星奖省排名1),2020.01

(5)国家建设高水平大学公派留学生-攻读博士学位奖学金学院仅1人),2015.05

(6)第五届中国化学快报环境化学青年科学家论坛优秀邀请报告奖,2023.08

(7)山东省优秀学士学位论文,2013.06

(8)美国陶瓷学会-演讲者国际旅行奖,2016.12

(9)2018年国际能源、材料与光子大会唯一最佳口头报告奖,2018.07

(10Applied Catalysis B: Environmental优秀审稿人,2017.08

(11)Journal of Environmental Chemical Engineering优秀审稿人,2018.03

(12)魁北克第22届无机化学年会最佳口头报告奖,2018.08

主持项目

(1)国家自然科学基金面上项目,主持

(2)国家自然科学基金青年项目,主持

3)山东省优秀青年科学基金(海外),2022.04-2025.03,主持

4)山东省泰山学者青年专家基金,2022.07-2025.06,主持

(5)广东省区域联合-青年科学基金,2021.10-2024.09,主持

6)必赢线路检测3003no1齐鲁青年学者启动经费,2021.09-2026.09,主持

7)上海大学有机复合污染控制工程教育部重点实验室开放课题,2022.10-2023.09,主持

(8)加拿大魁北克研究基金会(FRQ)博士研究项目(FRQNT-258513),2018-2019,主持

(9)加拿大魁北克研究基金会(FRQ)奖励项目(FRQNT-282917),2019,主持

会议报告

在国际学术会议(包括美国化学学会,美国材料学会,美国陶瓷学会,加拿大化学学会年会)做报告26次:英文报告16次,中文报告10次,其中12次为邀请报告;3次海报展示。详情请点击

部分发表论文

共发表论文56篇Google Scholar,以第一/通讯作者发表论文29篇(中科院一区论文12篇);总引用>2270次,H因子27;* 通讯作者, # 共同第一作者

1. X. Lu(研二), Z. Chen, Z. Hu, F. Liu, Z. Zuo, Z. Gao, H. Zhang, Y. Zhu, R. Liu, Y. Yin, Y. Cai, D. Ma*, Q. Zhang*. Boosted Charge Transfer for Highly Efficient Photosynthesis of H2O2 over Z-Scheme I-/K+ Co-Doped g-C3N4/Metal-Organic-Frameworks in Pure Water under Visible Light. Advanced Energy Materials, 2024, DOI: 10.1002/aenm.202401873. (IF: 24.4)

2. Q. Zhang, S. Huang, J. Deng, D. T. Gangadharan, Z. Xu, G. Giorgi, M. Palummo, M. Chaker, and D. Ma*. Ice-Assisted Synthesis of Black Phosphorus Nanosheets as a Metal-Free Photocatalyst: 2D/2D Heterostructure for Broadband H2 Evolution. Advanced Functional Materials, 2019, 29, 1902486. (IF: 18.5; Nature-indexed journal)

3. Q. Zhang, J. Deng, Z. Xu*, M. Chaker, D. Ma*. High-efficiency Broadband C3N4 Photocatalysts: Synergistic Effects from Upconversion and Plasmons. ACS Catalysis, 2017, 7, 6225-6234. (IF: 11.3)

4. Q. Zhang, A. Mirzaei, Y. Wang, G. Song, C. Wang, L. V. Besteiro, A. O. Govorov, M. Chaker, D. Ma*. Extracting Hot Holes from Plasmonic Semiconductors for Photocatalysis. Applied Catalysis B: Environmental, 2022, 317, 121792. (IF: 20.2)

5. Q. Zhang, F. Yang, S. Zhou, N. Bao*, Z. Xu*, M. Chaker, D. Ma*. Broadband Photocatalysts Enabled by 0D/2D Heterojunctions of Near-Infrared Quantum Dots/Graphitic Carbon Nitride Nanosheets. Applied Catalysis B: Environmental, 2020, 270, 118879. (IF: 20.2)

6. Y. Gao, J. Lin, Q. Zhang*, H. Yu, F. Ding, B. Xu, Y. Sun, Z. Xu*. Facile synthesis of heterostructured YVO4/g-C3N4/Ag photocatalysts with enhanced visible-light photocatalytic performance. Applied Catalysis B: Environmental, 2018, 224, 586-593. (IF: 20.2)

7. Q. Zhang, X. Jin, Z. Xu, J. Zhang, U. F. Rendón, L. Razzari, M. Chaker, D. Ma*. Plasmonic Au Loaded Hierarchical Hollow Porous TiO2 Spheres: Synergistic Catalysts for Nitroaromatic Reduction. Journal of Physical Chemistry Letters, 2018, 9, 5317-5326. (IF: 4.8; Nature-indexed journal; Top 20 most read articles)

8. Y. Wang, Q. Zhang*, Y. Wang, L. V. Besteiro, Y. Liu, J. Z. Zhang, J. K. Cooper, J. Zhao, G. Chen*, M. Chaker, D. Ma*. Ultrastable plasmonic Cu-based core-shell nanoparticles. Chemistry of Materials, 2021, 33, 2, 695-705. (IF: 7.2; 前封面)

9. J. Deng #, Q. Zhang #, X. Lv, D. Zhang, H. Xu*, D. Ma*, J. Zhong*. Understanding Photoelectrochemical Water Splitting with X-ray Absorption Spectroscopy. ACS Energy Letters, 2020, 5, 975-993. (共一; IF: 19.3)

10. T. Yu, W. He, Q. Zhang*, D. Ma*. Advanced Nanomaterials and Characterization Techniques for Photovoltaic and Photocatalysis Applications. Accounts of Materials Research, 2023, 4, 507-521 (IF: 14.0)

11. C. Wang, A. Mirzaei, Y. Wang, M. Chaker, Q. Zhang*, D. Ma*. Construction of Ultrathin BiVO4-Au-Cu2O Nanosheets with Multiple Charge Transfer Paths for Effective Visible-Light-Driven Photocatalytic Degradation of Tetracycline. Small Methods, 2024, 2301804. (IF: 10.7

12. Q. Zhang, X. Liu, M. Chaker, D. Ma*. Advancing Graphitic Carbon Nitride-Based Photocatalysts towards Broadband Solar Energy Harvesting. ACS Materials Letters, 2021, 3, 663-697. (IF: 9.6; Top 20 most read articles)

13. Q. Zhang, F. Yang, Z. Xu, M. Chaker, D. Ma*. Most Recent Development and Application of Upconversion Materials in Photocatalytic Reactions. Nanoscale Horizons, 2019, 4, 579-591. (IF: 8)

14. Q. Zhang, Z. Zuo, D. Ma. Plasmonic nanomaterials for solar-driven photocatalysis. Chemical Communications, 2023, 59, 7704-7716. (IF: 4.3; Nature-indexed journal; Chemical Communications HOT Articles 2023)

15. Y. Chen, Q. Zhang *, L. Zhang, X. Liu, Y. Li, Y. Wang, Y. Song, Y. Li, Y. Yin, Y. Cai. Light-induced degradation of dimethylmercury in different natural waters. Journal of Hazardous Materials, 2024, 470, 134113. (IF: 12.2)

16. F. Liu #, H. Xue #, T. Kang # (本科生), Q. Lei (本科生), J. Chen (本科生), Z. Zuo, B. Han, X. Lu, X. Yang, X. Shan, X. Song, Q. Zhang*, Y. Yin, Y. Cai. Efficient photodegradation of perfluoroalkyl substances under visible light by hexagonal ZnIn2S4 nanosheets. Journal of Environmental Sciences, 2025, 148, 116-125. (IF: 5.9)

17. B. Han, X. Shan, H. Xue, F. Liu, X. Song, J. Kong, Q. Lei (本科生), Y. Wang*, Dongling Ma*, Q. Zhang *. Synergistic Hydrogen Production and Organic Pollutant Removal via Dual-Functional Photocatalytic Systems. Journal of Environmental Sciences, 2025, accepted. (IF: 5.9

18. Y. Chen, Q. Zhang*, L. Zhang, Y. Wang, Y. Song, Y. Li, Y. Yin, Y. Cai*, An improved method for rapid and safe preparation and measurement of dimethylmercury using gas chromatography-atomic fluorescence spectrometry, Journal of Chromatography A, 2023, 1712, 464472. (IF: 3.8; short communications)

19. G. Wang #, Q. Zhang #, Q. Chen, X. Ma, Y. Xin*, X. Zhu, M. Dong, C. Cui, J. Zhang, Z. Xiao. Photocatalytic degradation performance and mechanism of dibutyl phthalate by graphene/TiO2 nanotube array photoelectrodes. Chemical Engineering Journal, 2018, 358, 1083-1090. (共一; IF: 13.3)

20. X. Song, X. Shan, H. Xue, X. Li, R. Liu, J. Kong, Z. Zuo, X. Su, Q. Zhang*, Y. Yin, Y. Cai. Advances in Photothermal Catalysis: Mechanisms, Materials and Environmental Applications. ACS Applied Nano Materials, 2024, accepted.(IF: 5.3

21. C. Wang, A. Mirzaei, Y. Wang, M. Chaker, Q. Zhang*, D. Ma*. BiVO4 Microspheres Coated with Nanometer-Thick Porous TiO2 Shells for Photocatalytic Water Treatment under Visible-Light Irradiation. ACS Applied Nano Materials, 2023, 6, 5545–5556. (IF: 5.3)

22. G. Song, Q. Zhang*, F. Liu, C. Wang, R. Yang, Z. Chen, D. Ma*. Mixed-Phase ZnIn2S4 Nanosheets Grown on TiO2 Nanotrees for the Visible-Light Photocatalytic Degradation of Organic Dyes. ACS Applied Nano Materials, 2022, 5, 380-390. (IF: 5.3)

23. Q. Zhang, Y. Liu, Z. Xu, Y. Zhao, M. Chaker, D. Ma*. Optimized Design and Mechanistic Understanding of Plasmon and Upconversion Enhanced Broadband Photocatalysts. Catalysis Today, 2020, 350, 25-32. (IF: 5.2)

24. Q. Zhang, D. T. Gangadharan, Y. Liu, Z. Xu, M. Chaker, D. Ma*. Recent advancements in plasmon-enhanced visible light-driven water splitting. Journal of Materiomics, 2017, 3, 33-50. (IF: 8.4; Top 25 most read paper for 2017; Top 25 most cited paper since 2012; 前封面)

25. F. Liu #, Kang # (本科生), B. Han, Q. Zhang *, Y. Yin, Y. Cai. Recent Advances in the Analytical Techniques for PFASs and Corresponding Intermediates During Their Chemical Decomposition. Chemical Research in Chinese Universities, 2023, 39, 361-369. (IF: 3.1; Invited review)

26. Q. Zhang, Y. Liu, Z. Xu, Y. Zhao, M. Chaker, D. Ma. Visible-Light-Driven Photocatalysis. Book “Nanomaterials for Energy Conversion and Storage”, Editors: Dunwei Wang, Guozhong Cao. Imperial College Press/World Scientific, 2017, 109-173. (书章节;Best Electrochemistry Books of All Time Winner)

27. S. Huang, Q. Zhang, P. Li, F. Ren, A. Yurtsever, D. Ma. High-performance Suspended Particle Devices Based on Copper-Reduced Graphene Oxide Core-Shell Nanowire Electrodes. Advanced Energy Materials, 2018, 8, 1703658. (IF: 24.4)

28. S. Huang, Q. Zhang, F. Yang, D. Thrithamarassery, P. Li, F. Ren, B. Sun, D. Ma. A facile way for scalable fabrication of silver nanowire network electrodes for high-performance and foldable smart windows. Journal of Materials Chemistry A, 2020, 8, 8620-8628. (IF: 11.9)

29. Y. Wang, X. Liu, Q. Zhang, C. Wang, S. Huang, Y. Liu, T. Yu, R. Yang, G. Chen, M. Chaker, D. Ma. Stable, Cost-Effective TiN-Based Plasmonic Nanocomposites with over 99% Solar Steam Generation Efficiency. Advanced Functional Materials, 2023, 2212301. (Nature-indexed journal; IF: 18.5)

30. J. Deng, Q. Zhang, K. Feng, H. Lan, J. Zhong, M. Chaker, D. Ma. Efficient Photoelectrochemical Water Oxidation on Hematite with Dual Cocatalysts of Fluorine-doped FeOOH and FeNiOOH. ChemSusChem, 2018, 11, 1-8. (IF: 7.5)

31. X. Liu, Q. Zhang, Y. Wang; C. Wang; G. Song. Construction of multi-interfacial charge transfer paths in the NiS/CdS@CuS composite for efficient and broadband visible light photocatalytic H2 production. International Journal of Hydrogen Energy, 2023, 48, 33077-33087 (IF: 8.1)

32. L. Tan, P. Li, Q. Zhang, R. Izquierdo, M. Chaker, D. Ma. Towards Enhancing Solar Cell Performance: An Effective and “Green” Additive. ACS Applied Materials & Interfaces, 2018, 10, 6498-6504. (IF: 8.3)

33. Shiyin Zhao, Maosong Liu, Yuqiao Zhang, Zhicheng Zhao, Qingzhe Zhang, Zhenliang Mu, Yangke Long, Yinhua Jiang, Yong Liu, Jianming Zhang, Shun Li, Xuanjun Zhang, Zuotai Zhang. Harvesting mechanical energy for hydrogen generation by piezoelectric metal–organic frameworks. Materials Horizons, 2022, 9, 1978-1983. (IF: 12.2)

34. Y. Gao, B. Xu, M. Cherif, H. Yu, Q. Zhang, F. Vidal, X. Wang, F. Ding, Y. Sun, D. Ma, Y. Bi, Z. Xu. Atomic Insights for Ag Interstitial/Substitutional Doping into ZnIn2S4 Nanoplates and Intimate Coupling with Reduced Graphene Oxide for Enhanced Photocatalytic Hydrogen Production by Water Splitting. Applied Catalysis B: Environmental, 2020, 279, 119403. (IF: 20.2)

35. Z. Xu, M. G. Kibria, B. Alotaibi, P. N. Duchesne, L. V. Besteiro, Y. Gao, Q. Zhang, Z. Mi, P. Zhang, A. O. Govorov, L. Mai, M. Chaker, D. Ma. Towards enhancing photocatalytic hydrogen generation: which is more important, alloy synergistic effect or plasmonic effect. Applied Catalysis B: Environmental, 2018, 221, 77-85. (IF: 20.2)

36. Y. Liu, J. Valdez, C. Chen, C. Harnagea, Y. Wang, Q. Zhang, S. Huang, A. Yurtsever, M. Chaker, D. Ma. Phase-enabled metal-organic framework homojunction for highly selective CO2 photoreduction. Nature Communications, 2021, 12, 1231. (IF: 14.7)


申请及获授权专利

1. Q. Zhang, D. Ma, M. Chaker. Metal-Free Few-Layer Phosphorus Nanomaterial: Method for Its Preparation and Use Thereof. US17/045,570; CA3096131A; PCT/CA2019/050813.美国、加拿大及国际PCT专利

2. 包南, 张清哲, 张成禄, 何随, 关瑾. 石墨烯/TiO2纤维的制备方法, 2014, ZL201310064816.6.(发明专利,已授权

3. 包南, 张岩香, 尹泽, 张清哲, 张成禄. 一种光催化耦合生物转筒, 2015, ZL201410066933.0.(发明专利,已授权

4. 包南, 何随, 张成禄, 张清哲, 牛军剑, 吴国林. 一种N/Si共掺TiO2纤维的制备方法, 2014, ZL201310102036.6.(发明专利,已授权

5. 包南, 刘海, 张成禄, 张清哲. 生物陶粒耦合光催化净水器, 2013, ZL201220704859.7. (实用新型,已授权

6. 包南, 缪昕翰, 胡信, 荚秀艳, 张清哲. 一种Ag、AgCl和TiO2复合光催化纤维的一步制备方法, 2018, ZL201510902161.4.(发明专利,已授权

毕业生去向

陈莹莹2020-2024,博士;合作指导):聊城大学,教师

刘芙妤2021-2024,硕士;合作指导):推荐至加拿大国立科学研究院(INRS),攻读博士学位,并获得国家留学基金委(CSC)公派攻读博士学位奖学金。


为学生和博士后等营造自由、平等的学术氛围,提供多元化的国内、国际合作平台(有意向者可推荐出国深造)。欢迎对环境功能纳米材料、水处理、新污染物治理、环境光催化、界面光热转化、痕量重金属光化学转化等研究感兴趣的同学加入!