个人简历

1991年9月至1995年6月：中国地质大学（武汉）应用化学系学习，获工学学士学位\r
1995年9月至1998年6月：华中科技大学化学系学习，获理学硕士学位\r
1998年7月至2000年8月：华中科技大学煤燃烧国家重点实验室工作，讲师\r
2000年9月至2003年8月：香港中文大学环境科学系学习，获博士学位\r
2003年10月至2005年2月：香港中文大学化学系工作，博士后研究员\r
2004年12月起：华中师范大学化学学院任教，教授、博士生导师\r
2006年5月至2007年7月：德国马普胶体与界面研究所工作，洪堡学者

研究领域

"""""主要研究污染控制化学、光催化、环境催化材料"

近期论文

Shi, Y. B.; Shou, H. W.; Li, H.*; Zhan, G. M.; Liu, X. P.; Yang, Z. P.; Mao, C. L.; Cheng, J. D.; Zhang, X.; Jiang, Y. Q.; Zhao, S. X.; Wang, J. X.; Liu, X.; Song, L.; Sun, H. W.*; Zhang, L. Z.*Visible Light-Driven Conversion of Carbon-Sequestrated Seawater into Stoichiometric CO and HClO with Nitrogen-Doped BiOCl Atomic Layers.Angew. Chem. Int. Ed. 2023, 10.1002/anie.202302286.\r
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Li, L. J.; Hu, Z. F.*; Kang, Y. Q.; Cao, S. Y.; Xu, L. P.; Yu, L.; Zhang, L. Z.* and Yu J. C.*Electrochemical generation of hydrogen peroxide from a zinc gallium oxide anode with dual active sites.Nature Commun. 2023, 14, 1890.\r
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Liu, Q. H.; Chen, Y. Y.; Mei, T.; Wang, S. H.; Zhang, L. Z.*; Sun, H. W.*; Liao, X. M.*Oxalated zero-valent iron catalyzed ozonation for effective removal of antibiotic resistance genes from municipal sewage sludge.J. Environ. Chem. Eng. 2023, 11, 3, 109717.\r
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Liao, M. Z.; Zhao, S. X.; Wei, K.; Sun, H. W. *; Zhang, L. Z.*Precise decomplexation of Cr(III)-EDTA and in-situ Cr(III) removal with oxalated zero-valent iron. Appl. Catal. B 2023, 330, 122619.\r
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Miao, J.; Song, J.; Lang, J. Y.; Zhu, Y.; Dai, J.; Wei, Y.; Long, M. C.*; Shao, Z. P.; Zhou, B. X.; Alvarez, P. J. J.; Zhang, L. Z.*Single-Atom MnN5 Catalytic Sites Enable Efficient Peroxymonosulfate Activation by Forming Highly Reactive Mn(IV)–Oxo Species. Environ. Sci. Technol. 2023, 57, 10, 4266-4275.\r
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Zhang, X.; Sun, H. W.*; Shi, Y. B.; Ling, C. C.; Li, M. Q.; Liang, C.; Jia, F. L.; Liu, X.; Zhang, L. Z.; Ai, Z. H.*Oxalated Zero Valent Iron Enables Highly Efficient Heterogeneous Fenton Reaction by Self-Adapting pH and Accelerating Proton Cycle. Water Res. 2023, 235, 119828.\r
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Cao, S. Y.; Zhan, G. M.; Wei, K.; Zhou, B.; Zhang, H.; Gao, T. J.*; Zhang, L. Z.*Raman spectroscopic and microscopic monitoring of on-site and in-situ remediation dynamics in petroleum contaminated soil and groundwater. Water Res. 2023, 233, 15, 119777.\r
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Gong, Li*; Zhang, L. Z.*Oxyanion modified zero valent iron with excellent pollutant removal performance. Chem. Comm. 2023, 59, 2081.\r
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Zou, X. Y.; Zhang, Y. H.; Wei, K.; Dai, J.; Mao, C. L.; Hu, L. F.; Li, H.; Yao, Y. C.*; Zhang, L. Z.*One-stop rapid decomplexation and copper capture of Cu(II)-EDTA with nanoscale zero valent iron.J. Hazard. Mater. 2023, 130752.\r
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Zhan, G. M.^; Quan, F. J.^; Yao, Y. C.*; Zhao, S. X.; Liu, X. F.; Gu, H. Y.; Huang, Y.; Liu, X.; Jia, F. L.; Zhang, L. Z.*Single-layer MoS2 with adjacent Mo sites for efficient electrocatalytic nitrogen fixation via spin-delocalized electrons effect. Appl. Catal. B 2023, 323, 122186.\r
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Liang, C.; Sun, H. W.*; Ling, C. C.; Liu, X. F.; Li, M. Q.; Zhang, X.; Guo, F. R.; Zhang, X.; Shi, Y. B.; Cao, S. Y.; He, H.; Ai, Z. H.*; Zhang, L. Z.Pyrolysis Temperature-Switchable Fe-N Sites in Pharmaceutical Sludge Biochar toward Peroxymonosulfate Activation for Efficient Pollutants Degradation. Water Res. 2023, 228, 119328.\r
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Shi, Y. B.; Zhang, C. C.; Yang, Z. P.; Liu, X. P.; Zhang, X.; Ling, C. C.; Cheng, J. D.; Liang, C.; Mao, C. L.*; Zhang, L. Z.*Interfacial Electrostatic Field Boosted Exciton Dissociation of Phosphorylated BiOBr for Efficient O2 Activation and Chlorobenzene Degradation.J. Phys. Chem. C 2022, 126, 21847-21856.\r
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Shi, Y. B.; Yang, Z. P.; Shi, L. J.; Li, H.*; Liu, X. P.; Zhang, X.; Cheng, J. D.; Liang, C.; Cao, S. Y.; Guo, F. R.; Liu, X.; Ai, Z. H; Zhang, L. Z.*Surface Boronizing Can Weaken Excitonic Effects of BiOBr Nanosheets for Efficient O2 Activation and Selective NO Oxidation under Visible Light Irradiation. Environ. Sci. Technol. 2022, 56, 14478-14486.\r
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Gu, H. Y.; Lan, J. T.; Liu, Y.; Ling, C. C.; Wei, K.; Zhan, G. M.; Guo, F. R.; Jia, F. L.; Ai, Z. H.; Zhang, L. Z.*; Liu, X.* Water Enables Lattice Oxygen Activation of Transition Metal Oxides for Volatile Organic Compound Oxidation.ACS Catal. 2022, 12, 11272-11280.\r
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Yao, Y. C.; Zhao, L.; Dai, J.; Wang, J. X.; Fang, C. Y.; Zhan, G. M.; Zheng, Q.; Hou, W.; Zhang, L. Z.*Single Atom Ru Monolithic Electrode for Efficient Chlorine Evolution and Nitrate Reduction.Angew. Chem. Int. Ed. 2022, 61, e202208215.\r
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Li, M. Q.; Chen, N.; Shang, H.; Ling, C. C.; Wei, K.; Zhao, S. X.; Zhou, B.; Jia, F. L.; Ai , Z. H.*; Zhang, L. Z.*An Electrochemical Strategy for Simultaneous Heavy Metal Complexes Wastewater Treatment and Resource Recovery. Environ. Sci. Technol. 2022, 56, 15, 10945-10953.\r
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Peng, X.; Chen, N.*; Wei, K.; Li, S.; Shang, H.; Sun, H.*; Zhang, L. Z.Zero-valentiron coupled calcium hydroxide: A highly efficient strategy for removal andmagnetic separation of concentrated fluoride from acidic wastewater.Sci. Total Environ. 2022, 838, 156336.\r
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Yao Y. C.; Zhang, L. Z.*Electrochemical nitrate reduction to ammonia on copper-based materials for nitrate-containing wastewater treatment.Sci. Bull. 2022, 67, 1194-1196.\r
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Xu, H.*; Liu, X. M.; Li, H.*; Zhang, L. Z.O2 activation and 1O2 generation over phosphate modified BiOCl for efficient photodegradation of organic pollutants. Appl. Catal. B: Environ. 2022, 314, 121520.\r
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Zhan, G. M.; Yao, Y. C.*; Quan, F. J.; Gu, H. Y.; Liu, X.; Zhang, L. Z.*D-band frontier: A new hydrogen evolution reactionactivity descriptor of Pt single-atom catalysts.J. Energy Chem. 2022, 72, 203-209.\r
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Chen, N.; Zhao, Y.; Li, M. Q.; Wang, X. B.; Peng, X.; Sun, H. W.*; Zhang, L. Z.FeC2O4·H2O enables sustainable conversion of hydrogen peroxide to hydroxyl radical for promoted mineralization and detoxification of sulfadimidine.J. Hazard. Mater. 2022, 436, 129049.\r
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Wei, K.; Wan, Y. Y.; Liao, M. Z.; Cao, S. Y.; Zhang, H.; Peng, X.; Gu, H. Y.; Ling, C. C.; Li, M. Q.; Shi, Y. B.; Ai, Z. H.*; Gong, J. M.; Zhang, L. Z.*A Controllable Reduction-Oxidation Coupling Process forChloronitrobenzenes Remediation: From Lab to Field Trial. Water Res. 2022, 218, 118453.\r
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Wei, K.; Li, H.*; Gu, H. Y.; Liu, X. F.; Ling, C. C.; Cao, S. Y.; Li, M. Q.; Liao, M. Z.; Peng, X.; Shi, Y. B.; Shen, W. J.; Liang, C.; Ai, Z. H.*, Zhang, L. Z.*Strained Zero-Valent Iron for Highly Efficient Heavy Metal Removal.Adv. Funct. Mater. 2022, 202200498.\r
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Zhan, G. M.^; Fang, Y. M.^; Zhang, M.; Cao, S. Y.; Xu, T. Y.; Lin, C. C.; Gu, H. Y.; Liu, X.*; Zhang, L. Z.*Oxalate Promoted Iron Dissolution of Hematite via Proton Coupled Electron Transfer. Environ. Sci.: Nano 2022, 9, 1770-1779.\r
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Ling, C. C.^; Liu, X. F.^; Li, H.; Wang, X. B.; Gu, H. Y.; Wei. K.; Li, M. Q.; Shi, Y. B.; Ben, H. J.; Zhan. G. M.; Liang, C.; Shen, W. J.; Li, Y. L.; Zhao, J. C.; Zhang, L. Z.*Atomic-Layered Cu5 Nanoclusters on FeS2 with Dual Catalytic Sites for Efficient and Selective H2O2 Activation.Angew. Chem. Int. Ed. 2022, 61, e202200670.\r
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Yang, Z. P.; Shi, Y. B.; Li, H.*; Mao, C. L.; Wang, X. B.; Liu, X. F.; Liu, X.*; Zhang, L. Z.*Oxygen and Chlorine Dual Vacancies Enable Photocatalytic O2 Dissociation into Monatomic Reactive Oxygen on BiOCl for Refractory Aromatic Pollutant Removal. Environ. Sci. Technol. 2022, 56, 6, 3587-3595.\r
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Shang, H.; Chen, Z. Y.; Wang, X.; Li, M. Q.; Li, H.; Mao, C. L.; Yu, L. H.; Sun, J.; Ai, Z. H.*; Zhang, L. Z.*SO2-enhanced Nitrate Photolysis on TiO2 Minerals: A Vital Role of Photochemically Reactive Holes. Appl. Catal. B: Environ. 2022, 308, 121217.\r
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Shi, Y. B.; Li, H.; Mao, C. L.; Zhan, G. M.; Yang, Z. P.; Ling, C. C.; Wei, K.; Liu, X.; Ai, Z. H.; Zhang, L. Z.Manipulating Excitonic Effects in Layered Bismuth Oxyhalides for Photocatalysis.ACS EST Engg. 2022, 2, 6, 957-974.\r
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Shi, Y. B.^; Li, J.^*; Mao, C. L.^; Liu, S.; Wang, X. B.; Liu, X. F.; Zhao, S. X.; Liu, X.; Huang, Y. Q. and Zhang, L. Z.*Van Der Waals gap-rich BiOCl atomic layers realizing efficient, pure-water CO2-to-CO photocatalysis.Nat. Commun. 2021, 12, 5923.\r
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Liu, X. F.; Luo, Y. N.; Ling, C. C.; Shi, Y. B.; Zhan, G. M.; Li, H.; Gu, H. Y.; Wei, K.; Guo, F. R.; Ai, Z. H.*; Zhang, L. Z.*Rare Earth La Single Atoms Supported MoO3-x for Efficient Photocatalytic Nitrogen Fixation. Appl. Catal. B: Environ. 2021, 301, 120766.\r
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Gu, H. Y.; Liu, X.*; Liu, X. F.; Ling, C. C.; Wei, K.; Zhan, G. M.; Guo, Y. B.; Zhang, L. Z.*Adjacent single-atom irons boosting molecular oxygen activation on MnO2.Nat. Commun. 2021,12, 5422.\r
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Wei, K.; Liu, X. F.; Cao, S. Y.; Cui, H. J.; Zhang, Y.; Ai, Z. H.*Fe2O3@FeB composites facilitate heterogeneous Fenton process by efficient Fe(III)/Fe(II) cycle and in-situ H2O2 generation. Chem. Eng. J. Adv. 2021, 8, 15, 100165.\r
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Liao, M. Z.; Wang, X. B.; Cao, S. Y.; Li, M. Q.; Peng, X.* and Zhang, L. Z.*Oxalate Modification Dramatically Promoted Cr(VI) Removal with Zero-Valent Iron.ACS ES&T Water. 2021, 1(9), 2109-2118.\r
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Sun, H. W.; Quan, F. J.; Mao, C. L.; Zhang, L. Z*New Strategies for nitrogen fixation and pollution control.Chinese J. Chem. 2021, 39(12), 3199-3210.\r
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Shi, Y. B.^; Zhan, G. M.^; Li, H.*; Wang, X. B.; Liu, X. F.; Shi, L. J.; Wei, K.; Ling, C. C.; Li, Z. L.; Wang, H.; Mao, C. L.; Liu, X. and Zhang, L. Z.*Simultaneous Manipulation of Bulk Excitons and Surface Defects for Ultrastable and Highly Selective CO2 Photoreduction.Adv. Mater. 2021, 2100143.\r
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Quan, F. J.^; Zhan, G. M.^; Liu, X. F.; Zhou, B.; Gu, H. Y.; Yu, L. H.; Yang, L.; Jia, F. L.*; Liu, X.*; Zhang, L. Z.Photocatalytic oxidative dehydrogenation of cyclohexane to cyclohexene over oxygen-deficient tungsten trioxide. Appl. Catal. B: Environ. 2021, 298, 120549.\r
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Ben, H. J.; Liu, Y.; Liu, X.; Liu, X. F.; Ling, C. C.; Liang, C.; Zhang, L. Z.*Diffusion-Controlled Z-Scheme-Steered Charge Separation across PDI/BiOI Heterointerface for Ultraviolet, Visible, and Infrared Light-Driven Photocatalysis.Adv. Funct. Mater. 2021, 2102315.\r
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Li, M. Q.; Shang, H.; Li, H.*; Hong, Y. H.; Ling, C. C.; Wei, K.; Zhou, B.; Mao, C. L.; Ai, Z. H.*; Zhang, L. Z.*Kirkendall Effect Boosts Phosphorylated nZVI for Efficient Heavy Metal Wastewater Treatment.Angew. Chem. Int. Ed. 2021, 60, 17115.\r
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Chen, N.; Cao, S. Y.; Zhang, L.; Peng, X.; Wang, X. B.; Ai, Z. H.; Zhang, L. Z.*Structural Dependent Cr(VI) Adsorption and Reduction of Biochar: Hydrochar Versus Pyrochar.Sci. Total Environ. 2021, 783, 147084.\r
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Ling, C. C.; Liu, X. F.; Li, M. Q.; Wang, X. B.; Shi, Y. B.; Qi, J.; Zhao, J. C.; Zhang, L. Z.*Sulphur vacancy derived anaerobic hydroxyl radical generation at the pyrite-water interface: Pollutants removal and pyrite self-oxidation behavior. Appl. Catal. B Environ. 2021, 290, 120051.\r
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Shang, H.; Wang, X.; Li, H.; Li, M. Q.; Mao, C. L.; Xing, P.; Zhao, S. X.; Chen, Z. Y.; Sun, J.; Ai, Z. H.*; Zhang, L. Z.*Oxygen Vacancies Promote Sulfur Species Accumulation on TiO2 Mineral Particles. Appl. Catal. B Environ. 2021, 283, 119645.\r
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Xu, T. Y.; Fang, Y. M.; Tong, T. Y.; Xia, Y. B.; Liu, X.*; Zhang, L. Z.Environmental photochemistry in hematite-oxalate system: Fe(III)-Oxalate complex photolysis and ROS generation. Appl. Catal. B Environ. 2021, 283, 119645.\r
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Wang, X. B.; Chen, N.; Liu, X. F.; Shi, Y. B.; Ling, C. C.; Zhang, L. Z.*Ascorbate Guided Conversion of Hydrogen Peroxide to Hydroxyl Radical on Goethite. Appl. Catal. B Environ. 2021, 282, 119558.\r
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Li, H.; Ai, Z. H.; Zhang, L. Z.*Surface structure-dependent photocatalytic O2 activation for pollutant removal with bismuth oxyhalide. Chem. Commun., 2020, 56, 15282.\r
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Mao, C. L.; Wang, J. X.; Zou, Y. J.; Qi, G. D.; Loh, J. Y. Y.; Zhang, T. H., Xia, M. K.; Xu, J.; Deng, F.; Ghoussoub, M.; Kherani, N. P.; Wang, L.; Shang, H.; Li, M. Q.; Li, J.; Liu, X.; Ai, Z. H.; Ozin, G.A.*; Zhao, J. C.; Zhang, L. Z.*Hydrogen spillover to oxygen vacancy of TiO2-xHy/Fe: Breaking the scaling relationship of ammonia synthesis.J. Am. Chem. Soc. 2020, 142, 41, 17403.\r
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Li, H.; Chen, S.; Shang, H.; Wang, X. B.; Yang, Z. P.; Ai, Z. H.*; Zhang, L. Z.*Surface hydrogen bond network spatially confined BiOCl oxygen vacancy for photocatalysis.Sci. Bull., 2020, 65, 22, 1916.\r
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Shi, Y. B.; Wang, X. B.; Liu, X. F.; Ling, C. C.; Shen, W. J.; Zhang, L. Z.*Visible Light Promoted Fe3S4 Fenton Oxidation of Atrazine. Appl. Catal. B Environ. 2020, 277, 119229.\r
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Li, J.^; Zhan, G. M.^; Yang, J. H.; Quan, F. J.; Mao, C. L.; Liu, Y.; Wang, B.; Lei, F. C.; Li, L. J.; Chan, Alice W.M.; Xu, L. P.; Shi, Y. B.; Du, Y.; Hao, W. C.; Wong, P. K.; Wang, J. F.; Dou, S. X.; Zhang, L. Z.*; Yu, J. C.*Efficient Ammonia Electrosynthesis from Nitrate on Strained Ruthenium Nanoclusters.J. Am. Chem. Soc. 2020, 142, 15, 7036.\r
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Zhan, G. M.; Li, J.; Hu, Y.; Zhao, S. X.; Cao, S. Y.; Jia, F. L.; Zhang, L. Z.*The Surface Hydroxyl and Oxygen Vacancy Dependent Cr(VI) Adsorption Performance of BiOCl. Environ. Sci.: Nano, 2020, 7, 1454.\r
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Li, J.^; Chen, S.^; Quan, F. J.^; Zhan, G. M.^; Jia, F. L.; Ai, Z. H.; Zhang, L. Z.*Accelerated Dinitrogen Electroreduction to Ammonia via Interfacial Polarization Triggered by Single-Atom Protrusions. Chem, 2020, 6, 885-901.\r
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Hu, Y.; Zhan, G. M.; Peng, X.*; Liu, X. F.; Ai, Z. H.; Jia, F. L.; Cao, S. Y.; Quan, F. J.; Shen, W. J.; Zhang, L. Z.*Enhanced Cr(VI) removal of zero-valent iron with high proton conductive FeC2O4·2H2O Shell Chem. Eng. J. 2020, 389, 124414.\r
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Shang, H.; Huang, S.; Li, H.; Li, M.Q.; Zhao, S. X.; Wang, J. X.; Ai, Z. H.*; Zhang, L. Z.*Dual-site activation enhanced photocatalytic removal of no with Au/CeO2. Chem. Eng. J., 2020, 386, 124047.\r
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Shen, W. J.^; Wang, X. M.^; Jia, F. L.*; Tong, Z.; Sun, H. W.; Wang, X. B.; Song, F. H.; Ai, Z. H.*; Zhang, L. Z.*; Chai, B.Amorphization Enables Highly Efficient Anaerobic Thiamphenicol Reduction by Zero-Valent Iron. Appl. Catal. B Environ. 2020, 264, 118550.\r
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Wang, X. B.; Wang, Y. Y.; Chen, N.; Shi, Y. B.; Zhang, L. Z.*Pyrite enables persulfate activation for efficient atrazine degradation.Chemosphere, 2020, 244, 125568.\r
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Chen, N.^; Wang, X. B.^; Wan, Y. C.; Luo, Y. N.; Huang, Y. H.; Zhang, L. Z.*Simulated Solar Light Driven Fe(III)/Fe(II) Redox Cycle for Roxarsone Degradation and Simultaneous Arsenate Immobilization.J. Hazard. Mater. 2020, 394, 121635.\r
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Sun, H. W.; Xie, G. H.; He, D.*; Zhang, L. Z.*Ascorbic Acid Promoted Magnetite Fenton Degradation of Alachlor: Mechanistic Insights and Kinetic Modeling. Appl. Catal. B Environ. 2020, 267, 118383.\r
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Li, M. Q.; Mu, Y.; Shang, H.; Mao, C. L.; Cao, S. Y.; Ai, Z. H.*; Zhang, L. Z.*Phosphate Modification Enables High Efficiency and Electron Selectivity of nZVI toward Cr(VI) Removal. Appl. Catal. B Environ. 2020, 263, 118364.\r
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Chen, N.; Tao, S. Y.; Xiao, K. K.; Liang, S.; Yang, J. K.; Zhang, L. Z.*A one-step acidification strategy for sewage sludge dewatering with oxalic acid.Chemosphere, 2020, 238, 124598.\r
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Hou, X. J.; Zhan, G. M.; Huang, X. P.; Wang, N.; Ai, Z. H.; Zhang, L. Z.*Persulfate Activation Induced by Ascorbic Acid for Efficient Organic Pollutants Oxidation. Chem. Eng. J., 2020, 382, 122355.\r
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Chen, N.; Wan, Y. C.; Zhan, G. M.; Wang, X. B.; Li, M. Q.; Zhang, L. Z.* Simulated Solar Light Driven Roxarsone Degradation and Arsenic Immobilization with Hematite and Oxalate. Chem. Eng. J. 2020, 384, 123254.\r
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Cao, S.Y.; Zhang, X.; Huang, X. P.; Wan, S. H.; An, X. Z.; Jia, F. L.*, Zhang, L. Z.* Insights into the facet-dependent adsorption of phenylarsonic acid on hematite nanocrystals. Environ. Sci.: Nano, 2019, 6, 3280-3291.\r
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Mao, C. L.; Li, H.; Gu, H. G.; Wang, J. X.; Zou, Y. J.; Qi, G. D.; Xu, J.; Deng, F.; Shen, W. J.; Li, J.; Liu, S. Y.; Zhao, J. C.; Zhang, L. Z.*Beyond the Thermal Equilibrium Limit of Ammonia Synthesis with Dual Temperature Zone Catalyst Powered by Solar Light. Chem, 2019, 5, 2702-2717\r
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Hu, Y.; Peng, X.; Ai, Z. H.; Jia, F. L.*; Zhang, L. Z.*Liquid Nitrogen Activation of Zero-Valent Iron and Its Enhanced Cr(VI) Removal Performance. Environ. Sci. Technol., 2019, 53, 14, 8333-8341.\r
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Wang, X. B.; Chen, N.; Zhang, L. Z.*Enhanced Cr(VI) Immobilization on Goethite Derived from Extremely Acidic Environment. Environ. Sci.: Nano, 2019, 6, 2185-2194.\r
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Quan, F. J.; Zhan, G. M.; Shang, H.; Huang, Y. H.; Jia, F. L.*; Zhang, L. Z.; Ai, Z. H.* High Efficient Electrochemical Conversion of CO2 and NaCl to CO and NaClO. Green Chem., 2019, 21, 3256-3262.\r
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Li, H.^; Shang, H.^; Li, Y. H.; Cao, X. M.; Yang, Z. P.; Ai, Z. H.*; Zhang, L. Z.*Interfacial Charging-Decharging Strategy to Efficient and Selective Aerobic NO Oxidation on Oxygen Vacancy. Environ. Sci. Technol., 2019, 53, 12, 6964-6971.\r
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Mao, C. L.; Wang, J. X.; Zou, Y. J.; Li, H.; Zhan, G. M.; Li, J.; Zhao, J. C.; Zhang, L. Z.*Anion (O, N, C and S) vacancies promoted photocatalytic nitrogen fixation. Green Chem., 2019, 21, 2852-2867.\r
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Shang, H.; Li, M. Q.; Li, H.; Huang, S.; Mao, C. L.; Ai. Z. H.*; Zhang, L. Z.*Oxygen Vacancies Promoted Selective Photocatalytic Removal of NO with Blue TiO2 via Simultaneous Molecular Oxygen Activation and Photogenerated Holes Annihilation. Environ. Sci. Technol., 2019, 53, 11, 6444.\r
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Xu, T. Y.; Zhu, R. L.; Shang, H.; Xia, Y. B.; Liu, X.*; Zhang, L. Z.Photochemical behavior of ferrihydrite-oxalate system: Interfacial reaction mechanism and charge transfer process. Water Res. 2019, 159, 10-19.\r
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Sun, H. W.; Wang, J.; Jiang, Y.; Shen, W. J.; Jia, F. L.*; Wang, S. H.; Liao, X. M.*; Zhang. L. Z.*Rapid Aerobic Inactivation and Facile Removal of Escherichia coli with Amorphous Zero-valent Iron Microspheres: Indispensable Roles of Reactive Oxygen Species and Iron Corrosion Products. Environ. Sci. Technol. 2019, 53(7), 3707-3717.\r
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Mu, Y.; Zhan, G. M.; Huang, C. M.; Wang, X. B.; Ai, Z. H.*; Zou, J. P.*; Luo, S. L.; Zhang, L. Z.*Dechlorination-Hydroxylation of Atrazine to Hydroxyatrazine with Thiosulfate: A Detoxification Strategy in Seconds. Environ. Sci. Technol. 2019, 53(6), 3208-3216.\r
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Chen, N.; Wan, Y. C.; Ai, Z. H.; Jia, F. L.*; Zhang, L. Z.Fast transformation of roxarsone into toxic arsenic species with ferrous iron and tetrapolyphosphate. Environ. Chem. Lett. 2019, 17, 1077-1084.\r
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Huang, X. P.; Hou, X. J.; Wang, F.; Guo, B. H.; Song, F. H.; Ling, L*.; Zhao, J. C.; Zhang, L. Z.*Molecular Scale Structures of Uranyl Surface Complexes on Hematite Facets. Environ. Sci.: Nano 2019, 6, 892-903.\r
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Shi, Z. J.; Shen, W. J.; Yang, K.; Zheng, N. N.; Jiang, X. F.; Liu, L. M.; Yang, D. D.; Zhang. L. Z.; Ai, Z. H.*; Xie, B.*Hexavalent chromium removal by a new composite system of dissimilatory iron reduction bacteria Aeromonas hydrophila and nanoscale zero-valent iron. Chem. Eng. J. 2019, 362, 63–70.