张冠 - 哈尔滨工业大学（深圳） - 土木与环境工程学院

个人简介

张冠，副教授，博导，海外留学回国人员, 深圳市海外高层次B类人才。主要研究领域：光电热催化环境污染去除控制技术、太阳能与氢能开发与利用技术、生物质转化与利用、室内空气净化等。主持或完成国家自然科学基金面上项目、青年项目、广东省联合基金重点项目、深圳市基础研究项目、技术创新等项目，发表60余篇SCI论文，其中一作或通讯40余篇，一作通讯高影响力论文包括： PNAS, Chem Soc Rev.; Energy Environ. Sci., J. Mater. Chem. A, Green Chem., Appl. Catal B:Environ. 等，总引用2700余次， H-index =30。教育经历 2007.09 –2012.08 韩国浦项工科大学(2012年泰晤士报世界大学排名28位)，博士，环境科学与工程 (导师：Wonyong Choi) 2004.09-2007.07 辽宁大学，无机化学专业 2000.07-2004.07 辽宁大学，分析化学专业研究与工作经历 2020.05 - 至今副教授，博导，哈尔滨工业大学（深圳） 2016.01 –2020.05 副教授，硕导，哈尔滨工业大学（深圳） 2014.01 –2015.12 项目研究员，英国圣安德鲁斯大学（15年泰晤士报世界大学排名87位）, 化学院 (导师：John TS. Irvine) 2012.09 –2013.12 博士后研究员，韩国浦项工科大学（12年泰晤士报世界大学排名28位），环境能源研究所 2012.07-2012.08 访问学者，美国加州理工学院，环境学院科研项目 2016.03-2019.03 哈工大新进教师科研启动项目（主持） 2016-2019 国家科技重大专项中小水厂饮用水安全项目（参与） 2017.08-2019.08 深圳科创委技术攻关项目-污染底泥处理技术（参与） 2017.10-2019.10 深圳市技术创新项目-光电化学废水处理（主持） 2017.03-2019.12 高层次人才科研启动项目-环境污染物治理（主持） 2018.01-2020.12 国家自然科学基金青年基金项目-新型光催化材料开发与去除污染物研究（主持） 2019.03-2021.03 深圳市基础研究项目-光催化氨氮处理技术（主持） 2020.01-2023.12 国家自然科学基金面上项目-光电热协同催化废水处理（主持） 2020.01-2023.12 国家自然科学基金面上项目-电化学还原全氟化合物（参与） 2021.10-2024.09 省市联合基金重点项目-光电化学多过程耦合处理垃圾渗滤液（联合主持） 2021.10-2024.09 深圳市基础研究面上项目-光热催化去除VOCs及病原菌（主持）

研究领域

光（电）驱动分解水制氢与环境污染物消除光/电/热催化水环境和大气环境污染治理固体氧化物燃料电池生物质能源转换与开发催化技术产业化应用

近期论文

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S. Lu, X. Li, Y. Cheng, J. Zhou*, G. Zhang*, In situ electrogenerated Cu(III) triggers hydroxyl radicals production on Cu-Sb-SnO2 electrode for highly efficient water decontamination, PNAS, 2023, 120, e2306835120. W. Zhang, M. Li, J. Luo, G. Zhang, L.Lin, F. Sun*, M. Li, Z. Dong, X. Li, Modulating the coordination environment of Co single-atom catalysts through sulphur doping to efficiently enhance peroxymonosulfate activation for degradation of carbamazepine. Chem. Eng. J., 2023, 474, 145377. C. Mao，H.ling, L. Yi, R. Zhu*, G. Zhang*, Revealing the critical roles of silver species on TNT film for photocatalytic decomposition of volatile organic pollutants under UV or visible light irradiation: From mechanism study to scaled-up test, Chem. Eng. J. 2023, 473, 145366. Z. Li, Z. Sun, G. Zhang*, Combining heterogeneous photocatalysis and enzymatic catalysis via membrane: Conversion of biomass for H2 production from water, Appl. Catal. B Environ. 2023. Z. Li, S. Qu, G. Zhang*, Photocatalytic H2 production from water splitting employing depolymerized cellulose through LiCl activation as sacrificial agent, Int. J. Hydrogen Energy, 2023 X. Li, S. Lu, G. Zhang*, Three-dimensional structured electrodes for electrocatalytic organic wastewater purification: Design, Mechanism and Role, J. Hazard. Mater. 2023,445, 130524 S. Lu, X. Li, Y. Liao, Z. Zhang, H. Luo, G. Zhang * Boosting generation of reactive oxygen and chlorine species on TNT photoanode and Ni/graphite fiber cathode towards efficient oxidation of ammonia wastewater. Chemosphere, 2023, 313, 137363 Z. Sun, X. Huang, G. Zhang * TiO2 based catalysts for photothermal catalysis: Mechanisms, materials and applications. J. Cleaner Production. 2022, 381, 135156. S. Lu, X. Li, Y. Liao, G. Zhang *, Optimized titania nanotubes photoanode mediated photoelectrochemical oxidation of ammonia in highly chlorinated wastewater via Cl-based radicals, Environmental Research 2022, 113972. Z. Sun, J. Wang, S. Lu, G. Zhang * Integrating enzymatic biomass hydrolysis with photocatalysis for cocatalyst free H2 production from water on porous carbon doped brookite？anatase heterophase titania. Renewable Energy 2022, 197, 151-160. N. Chen, J. Ruan, S.Lu, Z. Sun, G. Zhang *, Unveiling the Key Roles of Various Reactive Species for Ammonia Oxidation in an Efficient Three-Dimensional Electrocatalytic System and Enlarged Scale Study for the Treatment of Practical Wastewater. ACS EST Water 2022, 2, 1132-1142. S. Lu, G. Zhang *, Recent advances on inactivation of waterborne pathogenic microorganisms by (photo) electrochemical oxidation processes: Design and application strategies, J. Hazard. Mater., 2022, 431, 128619. Y. Yang, Q. Zhang, B. Chen*, L. Long, G. Zhang, Toward better understanding vacuum ultraviolet-iodide induced photolysis via hydrogen peroxide formation, iodine species change, and difluoroacetic acid degradation. Frontiers of Environ. Sci. Engineering, 2022, 16(5):55 T. Du, J. Zou, G. Zhang * Coupling photocatalytic and electrocatalytic oxidation towards simultaneous removal of humic acid and ammonia？nitrogen in landscape water, Chemosphere, 2022,286, 131717. Y. Zhou, G. Zhang *, J. Zou Photoelectrocatalytic generation of miscellaneous oxygen-based radicals towards cooperative degradation of multiple organic pollutants in water, Water Reuse, 2021, 11, 531-541. Y. Liao, J. Wang, X. Song, G. Zhang *, B. Chen, Low？cost and large mass producible phenolic resin for water disinfection and antibacterial coating under weak visible light LED or sunlight irradiation, Appl. Catal. B: Environ. 2021,292, 120189. H. R. S. Abdellatif, G. Zhang, D. Xie, J. NI, C. Ni*, Ionic Salt-Mediated Tuning of the Morphology and Band Structure of Graphitic Carbon Nitride for NO Removal under Visible Light, ACS Appl. Nano Mater. 2021, 4,3, 2828-2839. G. Zhang *, J. Ruan, T. Du, Recent Advances on Photocatalytic and Electrochemical Oxidation for Ammonia Treatment from Water/Wastewater, ACS EST Eng. 2021, 1, 3, 310-325. 8 D. Gu, G. Zhang *, J. Zou, High temperature thermo-photocatalysis driven carbon removal in direct biogas fueled solid oxide fuel cells, Chinese Chemical Letters, 2021, 32, 3548-3552. J. Feng, X. Zhang, G. Zhang *, J. Li, W. Song, Z. Xu, Improved photocatalytic conversion of high concentration ammonia in water by low cost Cu/TiO2 and its mechanism study, Chemosphere, 2021, 274, 129689. 6 H. R. S. Abdellatif, G. Zhang, Y. Tang, W. Ruan….. C. Ni*, A highly efficient dual-phase GaN(O)/Nb2O5(N) photocatalyst prepared through nitridation and reoxidation process for NO removal, Chem. Eng. J. 2020，402, 126199.4 X. Zhao, Y. You, S. Huang, Y. Wu, Y. Ma, G. Zhang, Z. Zhang*, Z-scheme photocatalytic production of hydrogen peroxide over Bi4O5Br2/C3N4 heterostructure under visible light, Appl. Catal. B: Environ. 2020, 119251. 30 Z. Zhou, Z. Shen, Z. Cheng, G. Zhang, M. Li, Y. Li, S. Zhan*, J. C. Crittenden, Mechanistic insights for efficient inactivation of antibiotic resistance genes: a synergistic interfacial adsorption and photocatalytic oxidation process, Science Bulletin, 2020, 65, 2107-2119. 8 D. Xie, Z. Tang, Y. Wang, R. Yin….. G. Zhang, Piezo-catalytic persulfate activation system for water advanced disinfection: process efficiency and inactivation mechanisms, Chem. Eng. J. 2020,400, 125894. 10 X. Zhao, G. Zhang, Z. Zhang, TiO2-based catalysts for photocatalytic reduction of aqueous oxyanions: State-of-the-art and future prospects, Environment International, 2020, 136,105453. (JCR 1区，中科院1区，IF=7.9) 29 G. Zhang *, Z. Zhang, D. Xia, Y. Qu, W. Wang, Solar driven self-sustainable photoelectrochemical bacteria inactivation in scale-up reactor utilizing large-scale fabricable Ti/MoS2/MoOx photoanode. J. Hazard. Mater., 2020, 392, 122292。(JCR 1区，中科院1区，IF=7.6) 14 Y. Qu, X. Song, X. Chen, X. Fan, G. Zhang *, Tuning charge transfer process of MoS2 photoanode for enhanced photoelectrochemical conversion of ammonia in water into gaseous nitrogen, Chem. Eng. J., 2020，382，123048. 11 H. R. S. Abdellatif, G. Zhang, X. T. Wang, C Ni* et al. Boosting photocatalytic oxidation on graphitic carbon nitride for efficient photocatalysis by heterojunction with graphitic carbon units, Chem. Eng. J., 2019,370, 875-884. 14 X. Fan, Y. Zhou, G. Zhang *, T. Liu, W. Dong, In situ Photoelectrochemical Activation of Sulfite by MoS2 Photoanode for Enhanced Removal of Ammonium Nitrogen from Wastewater, Appl. Catal. B: Environ., 2019, 244,396-406. 37 J. Li, X. Dong, G. Zhang, W. Cui, W. Cen, Z. Wu, S. Lee, F. Dong*, Probing ring-opening pathways for efficient photocatalytic toluene decomposition, J. Mater. Chem. A, 2019,7, 3366-3374. 87 Y. Zhou, X. Fan, G. Zhang *, W. Dong, Fabricating MoS2 nanoflakes photoanode with unprecedented high photoelectrochemical performance and multi-pollutants degradation test for water treatment, Chem. Eng. J., 2019, 356, 1003-1013. 32 S. Wei, G. Zhang *, X. Xu*, Activating BaTaO2N by Ca modifications and cobalt oxide for visible light photocatalytic water oxidation reactions, Appl. Catal. B: Environ., 2018, 237, 373-381. 26 G. Zhang, R. D. Tyagi, J. Chen, J. Li, X. Zhang*, P. Drogui, X. Dong, Lipid Extraction from oleaginous microorganism with electrochemical method, Eur. J. Lipid Sci. Technol. 2018, 1800215. J. Zou, G. Zhang *, X. Xu,* One pot photoreforming of cellulosic biomass waste to hydrogen by merging photocatalysis with acid hydrolysis, Appl. Catal. A, 2018, 563, 73-79. 28 X. Huang, J. Feng, H. R. Abdellatif, J. Zou, G. Zhang, C. Ni*, Electrochemical evaluation of double perovskite PrBaCo2-xMnxO5+δ (x = 0, 0.5, 1) as promising cathodes for IT-SOFCs. Int. J. Hydrogen energy, 2018, 43(18), 8962-8971. （JCR1区，IF= 3.5）29 X. Zhang, G. Zhang *, J. Zou, Nitrogen reduction utilizing solvated electrons produced by thermal exciation of trapped electrons in reduced titanium oxide, New. J. Chem., 2018, 42, 6084-6090. （JCR2区，IF= 3.2）5 G. Zhang, J. Zou*, Preparation and evaluation of novel Bi1.91Sr2Co1.96O7.08 cathode for intermediate temperature-solid oxide fuel cells, Mater. Lett., 2018, 217, 247-250. （JCR2区，IF= 2.5）1 E. Huang, G. Liu, G. Zhang *, X. Xu*, In situ fabrication of two-dimensional g-C3N4/Ba5Ta4O15 nanosheet heterostructures with efficient charge separations and photocatalytic hydrogen evolution under visible light illumination, Dalton Trans., 2018, 47,4360-4367. (JCR 1区，IF=4.2) 16 G. Zhang, J. Zou*, X. Xu*, Reduced 3d transition metal oxides work as solid-state sources of solvated electrons and directly inject electrons into water for H2 production under mild thermal or IR excitation, Advanced Sustainable Systems, 2018, 2, 1700139. 6 C. Ni*, Y. Zhang, X. huang, J. Zou, G. Zhang, J. Ni, effect of anode calcination on the performance and redox stability of low-temperature solid oxide fuel cells prepared via impregnation, Int. J. Hydrogen Energy, 2017, 42, 30760-30768. (JCR 1区, IF=3.5) 3 L. Wang, R. Niu, B. Chen*, L. Wang, G. Zhang. A comparison of photodegradation kinetics, mechanisms, and products between chlorinated and brominated/iodinated haloacetic acids in water, Chem. Eng. J., 2017, 230, 1326-1333 （JCR 1区，IF=6.3）28 J. Hui, G. Zhang *, C.Ni, J. Irvine*, Promoting photocatalytic H2 evolution by tuning cation deficiency in La and Cr co-doped SrTiO3, Chem. Commun., 2017 53(72), 10038-10042 . (JCR 1区，IF=6.3)17 G. Zhang *,Y. Zhou, X. Fan, J. Zou, W. Dong, X. Xu, “Efficient and robust visible light photocatalytic H2 production based on CdSe quantum dots sensitized titania”，Int. Hydrogen Energy, 2017, 42(31) 19877-19884 （JCR1区，IF=4.3）6 H. F. Greer, W. Zhou*, G. Zhang, H. Menard, Nanocone Decorated ZnO Microspheres Exposing the (0001) Plane and Enhanced Photocatalytic Properties，Adv. Mater. Interface., 2017, 4(13), 1601238. （JCR 1区，IF=4.2）13 G. Zhang, C. Kim, W. Choi*, “Poly(4-vinylphenol) as a new stable and metal-free sensitizer of titania for visible light photocatalysis through ligand-to-metal charge transfer process”, Catal. Today, 2017, 281，109-116. (JCR1区，IF = 4.3) 14 S. Nagarajan, N. Skillen, F. Fina, G. Zhang, C. Randhorn, L. A. Lawton, J. TS. Irvine, P. K.J.Robertson, Comparative assessment of visible light and UV active photocatalysts by hydroxyl radical quantification, J.Photochem. Photobio：A: Chem., 2017, 334:13.（JCR2区，IF=2.6） 55 G. Zhang *, W. Dong, X. Huang, J. Zou, “Oxygen vacancy induced enhancement of photochemical water oxidation on calcium manganese oxide catalyst” Catal. Commun., 2017, 89，117-120 ( JCR 2 区， IF=3.3) 4 G. Zhang *, J. Zou, Tuning Band Structure of CdS and Its Related Photocatalytic Performance by Co-Doping Ag and Trivalent Metals (M = Al, Cr, Ga and In) Nanosci. Nanotechnol. Lett. 2016, 8, 993-997.( JCR 3 区，IF=1.0) 14 G. Zhang, G. Liu, L. Wang, J T. S. Irvine*, “Inorganic perovskite photocatalysts for solar energy utilization” Chem. Soc. Rev., 2016, 45, 5951-5984 (JCR 1区，IF=38.5) 270 G. Zhang *, C. Ni, X. Huang, A. Welgamage, L. A. Lawton, P. K. J. Robertson, J. T. S. Irvine, “Simultaneous cellulose conversion and hydrogen production assisted by cellulose decomposition under UV-light photocatalysis” Chem. Commun., 2016，52，1673. (JCR 1区，IF=6.8) 50 L. Liu, G. Zhang, J., T. S. Irvine*, Y. Wu*. Organic semiconductor g-C3N4 modified TiO2 nanotube arrays for enhanced photoelectrochemical performance: dual roles of surface sensitization and passivation” Energy Technol., 2015,3, 982-988.（IF=2.8，JCR 2区） 34 G. Zhang *, C. Ni, L. Liu, G. Zhao, F. Fina, J. TS Irvine, “ Marcro-mesoporous resin as amorphous metal free visible light photocatalysts” J. Mater. Chem. A, 2015, 3, 15413-15419. (JCR 1区， IF=8.4) 35 G. Zhao, X. Huang, F. Fina, G. Zhang, J. TS Irvine*, “Facile Structure Design Based on C3N4 for Mediator-free Z-Scheme Water Splitting under Visible Light” Catal. Sci. Technol. 2015, 5, 3416. （JCR 2区，IF= 5.4） 73 G. Zhang, G. Kim, W. Choi*, “Visible light driven photocatalysis mediated via ligand-to-metal charge transfer (LMCT): an alternative approach to solar activation of titania” Energy Environ. Sci., 2014, 7(3), 954–966.（JCR 1区，IF= 29.5, 引用 124 次， ESI 1%高引论文） 274 G. Zhang, D. Monllor-Satoca, S. Lee, W. Choi*, “Band energy levels and compositions of CdS based solid solution and their relation with photocatalytic activities”. Catal. Sci. Technol. 2013, 3(7), 1790-1797. （JCR 2区，IF= 5.4） 15 G. Zhang, W. Choi*, “Low-cost sensitizer based on phenolic resin for charge-transfer type photocatalyst working under visible light” Chem. Commun. 2012, 48(86), 10621-10623. (Featured by RSC Chemistry World ) （JCR 1区，IF= 6.3） 42 G. Zhang, I. Y. Song, T. Park, W. Choi*, “Recyclable and stable ruthenium catalyst for free radical polymerization at ambient temperature initiated by visible light photocatalysis”. Green Chem. 2012, 14(3), 618-621. （JCR 1区， IF= 9.4） 15 G. Zhang, I. Y. Song, K. H. Ahn, T. Park, W. Choi*, “Free radical polymerization initiated and controlled by visible light photocatalysis at ambient temperature”. Macromolecules, 2011, 44(19), 7594-7599. （JCR 1区，IF=5.9, 引用 92 次） 134 G. Zhang, J. Yi, J. Shim, J. Lee, W. Choi*, “Photocatalytic hydroxylation of benzene to phenol over titanium oxide entrapped into hydrophobically modified siliceous foam”. Appl. Catal. B: Environ. 2011, 102(1-2), 132-139 （JCR 1区，IF= 9.4） 44 G. Zhang, W. Choi*, S. H. Kim, S. B. Hong, “Selective photocatalytic degradation of aquatic pollutants by titania encapsulated into FAU-type zeolites”. J. Hazard. Mater. 2011, 188(1-3), 195-205. （JCR 1区，IF=4.7） 82 J. Wang, T. Ma, G. Zhang, Z.H. Zhang, X.D. Zhang et al., “Preparation of novel nanometer TiO2 catalyst doped with upconversion luminescence agent and investigation on degradation of acid red B dye using visible light”. Catal. Commun. 2007, 8(3), 607-611. （JCR 3区，IF= 3.3） 53 J. Wang, G. Zhao, Z. Zhang, X. Zhang, G. Zhang, T. Ma, Y. Jiang, P. Zhang, Y. Li. Investigation on degradation of azo fuchsine using visible light in the presence of heat-treated anatase TiO2 powder. Dyes and Pigments 2007, 75, 335-343. （JCR 2区，IF= 3.4 40 J. Wang, T. Ma, Z. Zhang, X. Zhang, Y. Jiang, G. Zhang, G. Zhao, H. Zhao, Peng Zhang. Investigation on transition crystal of ordinary rutile TiO2 powder and its sonocatalytic activity. Ultrason. Sonochem. 2007, 14, 246-252. (JCR 2区，IF=3.8,） 35 J. Wang, Y. Jiang, Z. Zhang, X. Zhang, T. Ma, G. Zhang, G. Zhao, P. Zhang, Y. Li. Investigation on the sonocatalytic degradation of acid red B in the presence of nanometer TiO2 catalysts and comparison of catalytic activities of rutile and anatase TiO2 powders. Ultrason. Sonochem. 2007, 14, 545-551. （JCR 2区，IF= 3.8） 47 J. Wang, Y. Jiang, Z. Zhang, G. Zhao, G. Zhang, T. Ma, W. Sun, “Investigation on the sonocatalytic degradation of congo red catalyzed by nanometer rutile TiO2 powder and various influencing factors”Desalination, 2007, 216, 196. （JCR 2区，IF= 3.9） 53

学术兼职

2015- “Heliyon” 杂志编委会成员 (Elsevier) 2007- 期刊受邀审稿人 Journal of American Chemical Society (JACS) Energy Environmental Science （RSC） Advanced Functional Materials (Wiley) Environment Science & Technology (JACS) Chemical Communications (RSC) Journal of Physical Chemistry C (Letter) (JACS) Macromolecules (JACS) Applied Catalysis B：Environmental (Elsevier) Catalysis Science & Technology (RSC) Journal of Hazardous Materials (Elsevier) Water Research (Elsevier)