代表作:
1. Weizhao Yin, Jing Ai, Li-Zhi Huang*, Dominique J. Tobler, Hans Christian B. Hansen. A silicate/glycine switch to control the reactivity of layered iron(II)-iron(III) hydroxides for dechlorination of carbon tetrachloride. Environmental Science & Technology.
2 . Jia Deng, Enlai Gao, Feng Wu, Zhixiong You, Xiaozhong Li, Shuxian Gao, Li-Zhi Huang*. Generation of atomic hydrogen by Ni-Fe hydroxides: mechanism and activity for hydrodechlorination of trichloroethylene. Water Research.
3. Xuejie Zhang, Qianqian Jia, Jia Deng, Feng Wu, Li-Zhi Huang*. Interaction between green rust and tribromophenol under anoxic, oxic and anoxic-to-oxic conditions: adsorption, desorption and oxidative degradation. Water Research.
4. Qian-Qian Jia, Jia Deng, Xuejie Zhang, Yitao Dai, Feng Wu, Li-Zhi Huang*. Hydroxyl groups bridge the electron transfer from Fe(II) to carbon tetrachloride.Water Research
5. Xuejie Zhang, Jia Deng, Qianqian Jia, Bingbing Ji, Yitao Dai, Li-Zhi Huang*.Mineralization of tribromophenol under anoxic/oxic conditions in the presence of copper(II) doped green rust: Importance of sequential reduction-oxidation process. Water Research
6. Qian-Qian Jia,Xuejie Zhang,Yueqi Li, Li-Zhi Huang*. Reductive dehalogenation in groundwater by Si-Fe(II) co-precipitates enhanced by internal electric field and low vacancy concentrations. Water Research
7. Liping Fang*, Ru Liu, Ji Li, Li-Zhi Huang*, Dongsheng Wang. Magnetite/Lanthanum hydroxide for phosphate sequestration and recovery from lake and the attenuation effects of sediment particles. Water Research
2022年:
1. Qian-Qian Jia,Xuejie Zhang,Yueqi Li, Li-Zhi Huang*. Reductive dehalogenation in groundwater by Si-Fe(II) co-precipitates enhanced by internal electric field and low vacancy concentrations. Water Research (IF= 13.400, 中科院1区), 2022.
2. Xuejie Zhang, Jia Deng, Qianqian Jia, Bingbing Ji, Yitao Dai, Li-Zhi Huang*.Mineralization of tribromophenol under anoxic/oxic conditions in the presence of copper(II) doped green rust: Importance of sequential reduction-oxidation process. Water Research (IF= 13.400, 中科院1区), 222, 118959, 2022.
3. Qian-Qian Jia, Jia Deng, Xuejie Zhang, Yitao Dai, Feng Wu, Li-Zhi Huang*. Hydroxyl groups bridge the electron transfer from Fe(II) to carbon tetrachloride. Water Research (IF= 13.400, 中科院1区), 221, 118791, 2022.
4. Xuejie Zhang, Qianqian Jia, Jia Deng, Feng Wu, Li-Zhi Huang*. Interaction between green rust and tribromophenol under anoxic, oxic and anoxic-to-oxic conditions: adsorption, desorption and oxidative degradation. Water Research (IF= 13.400, 中科院1区), 217,118398, 2022.
5. Jia Deng, Feng Wu, Shuxian Gao, Dionysios D. Dionysiou, Li-Zhi Huang*. Self-activated Ni(OH)2 cathode for complete electrochemical reduction of trichloroethylene to ethane in low-conductivity groundwater. Applied Catalysis B: Environmental (IF= 24.319, 中科院1区) 309, 121258, 2022.
6. Li-Zhi Huang, Yi Wang, Jia Deng*, Jianping Yuan, Yitao Dai, Weizhao Yin*. Generation of adsorbed atomic hydrogen by Pd(II) doped Fe(OH)2 enables ultra-fast reductive dechlorination of trichloroethylene. Applied Catalysis B: Environmental (IF= 24.319, 中科院1区).
7. Kaixiong Yang#, Yi-Jie Kong#, Li-Zhi Huang*, Xin-Ming Hu*. Catalytic elimination of chlorinated organic pollutants by emerging single-atom catalysts. Chemical Engineering Journal (IF= 16.744, 中科院1区), 450, 138467, 2022
8. Shuting Xiong, Jinxin Zhao, Bingliang Lun, Fengmin Chen, Yanyan Gong, Jinhua Wu, Li-Zhi Huang*, Weizhao Yin*, Dionysios D. Dionysiou. Reconsidering the use of ferrous hydroxide for remediation of chlorinated ethylene contaminated groundwater: Ultra-fast trichloroethene dechlorination by ferrous hydroxide and bone char mixture. Chemical Engineering Journal (IF= 16.744, 中科院1区), 438, 135516, 2022
9. Jinxin Zhao, Shuting Xiong, Fengmin Chen, WeizhaoYin*, Yanyan Gong, JinhuaWu, Li-Zhi Huang*, Dionysios D. Dionysiou. One-time removal of Cr(VI) and carbon tetrachloride from groundwater by silicate stabilized green rust: the slow release of reactive sites driven by Fe(III)-Cr(III) oxides formation. Chemical Engineering Journal (IF= 16.744, 中科院1区) 433, 134462, 2022
10. Li-Zhi Huang, Xuejie Zhang, Ru Liu, Liping Fang*. The redox chemistry of phosphate complexed green rusts: Limited oxidative transformation and phosphate release. Chemical Engineering Journal (IF= 16.744, 中科院1区), 429, 132417, 2022.
11. Qing Shao, Ying Zhang, Zhe Liu, Lizhi Long, Zizheng Liu, Yiqun Chen, Xin-Ming Hu, Mingming Lu, Li-Zhi Huang*. Phosphorus and nitrogen recovery from wastewater by ceramsite: Adsorption mechanism, plant cultivation and sustainability analysis. Science of the Total Environment (IF= 10.753, 中科院1区/小类), 805 (2022) 150288.
12. Yueqi Li, Minjuan Cai, Bingbing Ji, Feng Wu, Li-Zhi Huang*. Pyridinic nitrogen enables dechlorination of trichloroethylene to acetylene by green rust: performance, mechanism and applications. Science of the Total Environment (IF= 10.753, 中科院1区/小类), 824, 153825, 2022.
13. Fengmin Chen#, Bingliang Lun#,Jinxin Zhao, Shuting Xiong, Jinhua Wu, Li-Zhi Huang*, Weizhao Yin*. Fast removal of trichloroethene from groundwater using surfactant amended bone char and green rusts mixture: Mechanism of surface interface interaction. Applied Clay Science (IF= 5.467, 中科院2区) 219: 106440, 2022.
14. Jia Deng, Zheng Fang* Yitao Dai, and Li-Zhi Huang. Electrochemical dechlorination of trichloroethylene by manganese phthalocyanine: Performance and mechanisms. 9th Annual International Conference on Material Science and Environmental Engineering. Strategic Planning for Energy and the Environment. 40_4, 437–454, 2022
15. Jia Deng; Xiaobao Zeng; Feng Wu; Zheng Fang*; Yitao Dai; Li-Zhi Huang. Coordinatively unsaturated reduced iron sites enable Hemin-catalyzed electrochemical dechlorination of trichloroethylene. Journal of Environmental Engineering, 2022.
2021年:
16. Jia Deng, Enlai Gao, Feng Wu, Zhixiong You, Xiaozhong Li, Shuxian Gao, Li-Zhi Huang*. Generation of atomic hydrogen by Ni-Fe hydroxides: mechanism and activity for hydrodechlorination of trichloroethylene. Water Research (IF= 13.400, 中科院1区), 207, 117802, 2021.
17. Jia Deng, Xiang Zhan, Feng Wu, Shuxian Gao, Li-Zhi Huang*. Fast dechlorination of trichloroethylene by a bimetallic Fe(OH)2/Ni composite. Separation and Purification Technology (IF= 7.312, 中科院1区) 278, 119597, 2021.
18. Jia Deng, Xin-Ming Hu, Enlai Gao, Feng Wu, Weihzhao Yin, Li-Zhi Huang*, Dionysios D. Dionysiou, Electrochemical reductive remediation of trichloroethylene contaminated groundwater using biomimetic iron-nitrogen-doped carbon, Journal of Hazardous Materials (IF= 14.224, 中科院1区), 419, 126458, 2021.
19. Li-Zhi Huang, Yiyi Zhou, Xuejie Zhang, Qianqian Jia, Ru Liu, Liping Fang*.Effect of structural properties of green rusts on phosphate fixation and implication for eutrophication remediation. Separation and Purification Technology (IF= 7.312, 中科院1区), 274 , 119023, 2021.
20. Liping Fang, Ling, Xu, Jia Deng, Shuxian Gao, Li-Zhi Huang*. Induced generation of hydroxyl radicals from green rust under oxic conditions by iron-phosphate complexes. Chemical Engineering Journal (IF= 16.744, 中科院1区). 414, 128780, 2021.
21. Jinxin Zhao, Shuting Xiong, Jing Ai, Jinhua Wu, Li-Zhi Huang, Weizhao Yin*. Stabilized Green Rusts for Aqueous Cr(VI) Removal: Fast Kinetics, High Iron Utilization Rate and Anti-acidification. Chemosphere (IF= 7.086, 中科院2区), 262, 127853, 2021.
2020年:
22. Li-Zhi Huang, Xiuli Wei, Enlai Gao, Chunbo Zhang, Xin-Ming Hu, Yiqun Chen*, Zizheng Liu*, Nicolas Finck, Johannes Lützenkirchen, Dionysios D. Dionysiou. Single Fe atoms confined in two-dimensional MoS2 for sulfite activation: a biomimetic approach towards efficient radical generation. Applied Catalysis B: Environmental (IF= 24.319, 中科院1区). 268, 118459, 2020.
23. Liping Fang, Wenbin, Zeng, Ling, Xu, Li-Zhi Huang*. Green rusts as a new solution to sequester and stabilize phosphate in sediments under anoxic conditions and their implication for eutrophication control. Chemical Engineering Journal (IF= 16.744, 中科院1区). 388, 124198, 2020.
24. Li-Zhi Huang, Chu Zhou, Miaolong Shen, Enlai Gao, Chunbo Zhang, Xin-Ming Hu, Yiqun Chen,*, Yingwen Xue, Zizheng Liu,*. Persulfate activation by two-dimensional MoS2 confining single Fe atoms: performance, mechanism and DFT calculations. Journal of Hazardous Materials (IF= 14.224, 中科院1区). 389, 122137, 2020.
25. Yiqun Chen, Yang Tong, Yingwen Xue, Zizheng Liu, Min Tang, Li-Zhi Huang*, Senlin Shao*, Zheng Fang. Degradation of the β-blocker propranolol by sulfite activation using FeS. Chemical Engineering Journal (IF= 16.744, 中科院1区). 385, 123884, 2020.
26. Yiqun Chen,Fan Bai, Zhengyong Li, Pengchao Xie*, ZongpingWang*, Xiaonan Feng, Zizheng Liu, Li-Zhi Huang. UV-assisted chlorination of algae-laden water: Cell lysis and disinfection byproducts formation. Chemical Engineering Journal (IF= 16.744, 中科院1区). 383, 123165, 2020.
2019年:
27. Liping Fang, Ling Xu, Chengshuai Liu, Ji Li, Li-Zhi Huang*. Enhanced reactivity and mechanisms of copper nanoparticles modified green rust for p-nitrophenol reduction. Environment International (IF= 13.352, 中科院1区). 129, 299–307, 2019
28. Liping Fang, Ru Liu, Ling Xu, Ji Li, Li-Zhi Huang*, Fangbai Li. Enhanced debromination of tetrabromobisphoenol a by zero-valent copper-nanoparticle-modified green rusts. Environmental Science: Nano (IF= 8.131, 中科院1区/发表当年). 6, 970–980, 2019.
29. Yiqun Chen, Mengyu Li, Yang Tong, Zizheng Liu*, Liping Fang, Yi Wu, Zheng Fang, Feng Wu, Li-Zhi Huang*. Radical generation via sulfite activation on NiFe2O4 surface for estriol removal: Performance and mechanistic studies. Chemical Engineering Journal (IF= 16.744, 中科院1区). 368,495-503, 2019.
30. Li-Zhi Huang, Mingtao Zhu, Zizheng Liu*, Zongping Wang* and Hans Christian B. Hansen. Single sheet iron oxide: an efficient heterogeneous electro-Fenton catalyst at neutral pH. Journal of Hazardous Materials (IF= 14.224, 中科院1区). 364, 39-47.2019.
31. Liping Fang, Ling Xu, Ji Li, Li-Zhi Huang*, Copper nanoparticles/graphene modified green rusts for debromination of tetrabromobisphenol A: Enhanced galvanic effect, electron transfer and adsorption. Science of the Total Environment (IF= 10.753, 中科院1区/发表当年). 683, 275-283, 2019.
32. Yiqun Chen, Chuanjing Lin, Yiyi Zhou, Li Long, Lili Li, Min Tang, Zizheng Liu*, Ivan P. Pozdnyakov, Li-Zhi Huang*, Transformation of roxarsone during UV disinfection in the presence of ferric ions, Chemosphere (IF= 7.086, 中科院2区), 2019.
33. Yiqun Chen, Yang Tong, Zizheng Liu, Jianping Yuan*, Yingwen Xue, Zheng Fang, Li-Zhi Huang*. Enhanced degradation of Orange II using a novel UV/persulfate/sulfite system. Environmental Chemistry Letters (IF= 13.615, 中科院2区). 17, 1435–1439,2019.
34. Yiqun Chen, Shuxian Gao, Zizheng Liu, Senlin Shao*, Weizhao Yin, Zheng Fang, Li-Zhi Huang*. Prolonged persulfate activation by UV irradiation of green rust for the degradation of organic pollutants. Environmental Chemistry Letters (IF= 13.615, 中科院2区). 17, 1017–1021, 2019.
2018年:
35. Weizhao Yin, Jing Ai, Li-Zhi Huang*, Dominique J. Tobler, Hans Christian B. Hansen. A silicate/glycine switch to control the reactivity of layered iron(II)-iron(III) hydroxides for dechlorination of carbon tetrachloride. Environmental Science & Technology (IF= 11.375, 中科院1区). 52, 7876-7883, 2018.
36. Liping Fang*, Ru Liu, Ji Li, Li-Zhi Huang*, Dongsheng Wang. Magnetite/Lanthanum hydroxide for phosphate sequestration and recovery from lake and the attenuation effects of sediment particles. Water Research (IF= 13.400, 中科院1区). 130,243-254, 2018.
37. Li-Zhi Huang, Zhou Yin, Nicola G.A.Cooper, Weizhao Yin,* Emil Tveden Bjerglund, Bjarne W. Strobel and Hans Christian B. Hansen. Copper-mediated reductive dechlorination by green rust intercalated with dodecanoate. Journal of Hazardous Materials (IF= 14.224, 中科院1区), 345, 18-26, 2018.
38. Li-Zhi Huang, Y. Zhang,* X.-M. Hu,* H.C.B. Hansen, S.U. Pedersen, K. Daasbjerg, Energy-harvesting bio-electro-dehalogenation for sustainable wastewater treatment, Electrochimica Acta (IF= 6.901, 中科院1区/发表当年), 290, 38-45, 2018.
39. Liping Fang, Cuihong Xu, Wenbin Zhang, Li-Zhi Huang*, The important role of polyvinylpyrrolidone and Cu on enhancing dechlorination of 2,4-dichlorophenol by Cu/Fe nanoparticles: Performance and mechanism study. Applied Surface Science (IF= 6.707, 中科院1区). 435, 55-64, 2018.
2017年:
40. Li-Zhi Huang*, Steen Uttrup Pedersen, Emil Tveden Bjerglund, Paolo Lamagni, Marianne Glasius, Hans Christian B. Hansen and Kim Daasbjerg. Hierarchical MoS2 nanosheets on flexible carbon felt as an efficient flow-through electrode for dechlorination. Environmental Science: Nano (IF=8.131, 中科院1区/发表当年). 4,2286-2296, 2017.(Highlighted as cover paper)
41. Li-Zhi Huang*, Hans Christian B. Hansen, and Kim Daasbjerg. Graphene oxide-mediated rapid dechlorination of carbon tetrachloride by green rust. Journal of Hazardous Materials (IF= 14.224, 中科院1区), 323, 690-697, 2017.
42. Weizhao Yin*, Li-Zhi Huang, Emil Bjerglund Pedersen, Cathrine Frandsen, Hans Christian B Hansen, Glycine buffered synthesis of layered iron(II)-iron(III) hydroxides (green rusts). Journal of Colloid & Interface Science (IF= 8.128, 中科院2区), 429-438, 497, 2017.
2016年:
43. Li-Zhi Huang*, Hans Christian B. Hansen, and Morten Jannik Bjerrum. Electrochemical reduction of nitro-aromatic compounds by single sheet iron oxide coated electrodes. Journal of Hazardous Materials (IF= 14.224, 中科院1区), 5, 175-183, 2016.
44. Li-Zhi Huang*, and Hans Christian B. Hansen. Synthesis and reactivity of surfactant-intercalated layered iron(II)-iron(III) hydroxides: a review. Current Inorganic Chemistry, 5, 1–15, 2016.
2015年:
45. Liping Fang*, Li-Zhi Huang, Peter E. Holm, Xiaofang Yang, Hans Christian B. Hansen and Dongsheng Wang*. Facile upscaled synthesis of layered iron oxide nanosheets and their application in phosphate removal. Journal of Materials Chemistry A (IF= 14.511, 中科院1区), 7505–7512, 3, 2015.
46. Liping Fang*, Wentao Li, Huimin Chen, Feng Xiao*, Li-Zhi Huang, Peter E. Holm, Hans Christian B. Hansen and Dongsheng Wang. Synergistic effect of humic and fulvic acids on Ni removal by the calcined Mg/Al layered double hydroxide. RSC Advances (IF= 3.361, 中科院3区), 18866–18874, 5, 2015.
2014年:
47. Li-Zhi Huang*, Tue Hassenkam, Hans Christian Bruun Hansen, and Morten Jannik Bjerrum. Single sheet iron oxide based films: Electrochemical properties with in-situ UV-vis measurement. Journal of Materials Chemistry A (IF= 14.511, 中科院1区). 2, 4029-4037, 2014.
2013年:
48. Li-Zhi Huang*, Liping Fang, Tue Hassenkam, Kim Dalby, Kirk G. Scheckel and Hans Christian Bruun Hansen. A one-step delamination procedure to form single sheet iron(III)-(oxy)hydroxide. Journal of Materials Chemistry A (IF= 14.511, 中科院1区),1, 13664-13671, 2013.
49. Li-Zhi Huang*, Karina B. Ayala-Luis, Liping Fang, Kim N. Dalby, Takeshi Kasama, Christian Bender Koch,and Hans Christian B. Hansen. Oxidation of dodecanoate intercalated iron(II)-iron(III) layered double hydroxide to form 2D iron(III) (hydr)oxide layers. European Journal of Inorganic Chemistry (IF= 2.524, 中科院3区), 33, 5718-5727, 2013.
2010年:
50. Zong-ping Wang*, Li-Zhi Huang, Lin Du, Hua Sheng, and Bo Lv. Photocatalytic degradation of orange II in aqueous iron-rich montmorillonite solutions. Journal of Environmental Engineering. 152–158, 2010.
51. Zongping Wang*, Li-Zhi Huang, Lin Du, Jiewen Su, Hua Sheng, and Bo Lv. Photocatalysis by iron-rich montmorillonite for the treatment of dyeing wastewater. Chemical Engineering Communications.197:1048–1056, 2010.
52. Zong-Ping Wang*, Li-Zhi Huang, Xiao-Nan Feng, Peng-Chao Xie, Zi-zheng Liu. Removal of phosphorus in municipal landfill leachate by photochemical oxidation combined with ferrate pre-treatment. Desalination and Water Treatment. 22, 111–116, 2010.
2009年:
53. Zongping Wang*, Li-Zhi Huang, Lin Du, Hua Sheng, and Bo Lv. Photocatalytic decolourization of the X3B textile dye in aqueous solutions using iron-rich montmorillonite. Canadian Journal of Civil Engineering. 36: 1265–1271, 2009.
54. Zong-ping Wang*, Li-Zhi Huang, TaoTao, Sili Fu, Jiaolan Zuo, Bo Lv. Treatment of landfill leachate by combined photooxidation and biological anaerobic-aerobic method. The 3rd International Conference on Bioinformatics and Biomedical Engineering. 2009.
2008年:
55. Zong-ping Wang*, Li-Zhi Huang, Jiewen Su, Jing Li, Guanghong Liu and Zhe Zhang. Removal of cyanides in coking wastewater by ferrate pre-oxidization followed by photochemical process. Fresenius Environmental Bulletin.17: 8A, 1082–1087, 2008.
