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华东师范大学生态与环境科学学院导师教师师资介绍简介-王兆慧

本站小编 Free考研考试/2021-01-16

王兆慧 职称: 研究员
直属机构: 生态与环境科学学院
学科:





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相关教师




个人资料
部门: 生态与环境科学学院
性别: 男
专业技术职务: 博士生导师
毕业院校: 中国科学院
学位: 博士
学历: 研究生
联系电话:
电子邮箱: zhwang@des.ecnu.edu.cn
办公地址: 资环楼441室
通讯地址: 上海市闵行区东川路500号资环楼441
邮编: 200241
传真:

教育经历
2006年09月--2009年07月 中国科学院化学研究所?物理化学?理学博士
2003年09月--2006年07月 中南大学资源加工与生物工程学院?微生物学?理学硕士
1999年09月--2003年06月中南大学资源加工与生物工程学院?矿物加工工程?工学学士

工作经历
先后就职于东华大学任讲师、副教授,澳大利亚南十字星大学和纽卡斯尔大学任高级研究员(Senior Research Fellow), 2018年7月正式就职于华东师范大学。


个人简介
目前担任2019级环境科学、环境工程专业青年科学家班主任。欢迎2019级及其它年级的环境专业本科生来我办公室441探讨学习、生活等各种问题,希望可以帮助大家答疑解惑。

课题组网站:https://www.x-mol.com/groups/er441

表1 研究生代表性荣誉和奖励
序号
姓名
年份
获奖名称
颁发机构

1
郭耀广
2016
上海市研究生优秀成果(学位论文)
上海教委/上海学位办

2
郭耀广
2015
校优秀博士学位论文
东华大学

3
郭耀广
2014
上海市普通高等学校优秀毕业生
上海市教委

4
郭耀广
2013
博士研究生国家奖学金
教育部

5
郭耀广
2013
东华大学研究生“学术之星”
东华大学

6
娄晓祎
2015
东华大学研究生“学术之星”
东华大学

7
娄晓祎
2015
博士研究生国家奖学金
教育部

8
娄晓祎
2017
校优秀博士学位论文
东华大学

9
周骏
2016
上海市高等学校优秀毕业生
上海市教委

10
周骏
2017
校优秀研究生学位论文
东华大学

11
周骏
2015
硕士研究生国家奖学金
教育部

12
刘仁兰
2013
硕士研究生国家奖学金
教育部

13
刘仁兰
2015
校优秀研究生学位论文
东华大学

14
徐蕾
2012
硕士研究生国家奖学金
教育部

15
盛波
2019
硕士研究生国家奖学金
教育部

16
袁瑞霞
2012
博士研究生国家奖学金
教育部

17
袁瑞霞
2014
校优秀博士学位论文
东华大学

18
袁瑞霞
2011
博士生杰出人才奖学金
上海同济高廷耀环保科技发展基金会



社会兼职

1]Chinese Chemical Letters第三届青年编委会委员(2018-2021)
[2]英国皇家化学会RSC Advances副主编(2015-2019)
[3]Springer出版社Journal of Soils and Sediments主题编辑(2018-)
[4]Frontiers in Nanotechnology副主编
[5]澳大利亚南十字星大学、纽卡斯尔大学荣誉教员
[6]澳大利亚研究理事会****基金(FT),优秀青年基金(DE), 面上项目(DP),企业联合基金(LP)和基础设备设施(LIEF)通讯评审人。
[7]上海同济高廷耀环保科技发展基金会“青年博士杰出人才奖学金”和国家研究生奖学金(7人次)指导教师。
[8]上海市优秀博士学位论文(1人次)、东华大学优秀博士学位论文(4人次)共同指导教师。培养的博士生5人次荣获上海科委扬帆计划和上海教委晨光计划资助。
[9]48个国际知名期刊论文评审人,包括:ACS Applied Materials & Interfaces (American Chemical Society); ACS Earth and Space Chemistry (American Chemical Society); ACSSustainableChemistry&Engineering (American Chemical Society); Analyst (Royal Society of Chemistry); Applied Catalysis A: General (Elsevier); Applied Catalysis B: Environmental (Elsevier); AppliedOrganometallicChemistry (Wiley); Applied Surface Science (Elsevier); Arabian Journal of Chemistry (Elsevier); Carbon (Elsevier); Catalysis Communications(Elsevier); ChemCatChem(Wiley); Chemical Communications (Royal Society of Chemistry); Chemical Engineering Journal (Elsevier); Chemistry of Materials(American Chemical Society); Chemosphere (Elsevier); Critical Reviews in Analytical Chemistry (Taylor & Francis); Current Microbiology (Springer); Desalination (Elsevier); Desalination and Water Treatment (Taylor & Francis); Environmental Science and Pollution Research (Springer); Environmental Science and Technology (American Chemical Society); Environmental Technology (Taylor & Francis); Evaluation & the Health Professions(SAGE); Hydrometallurgy (Elsevier); Industrial & Engineering Chemistry Research (American Chemical Society); International Journal of Chemical Kinetics(Wiley);International Journal of Chemical Reactor Engineering(Degruyter); Journal of Advanced Oxidation Technologies (Science & Technology Network);Journal of the Australian Ceramic Society (Springer); Journal of Colloid and Interface Science (Elsevier); Journal of Environmental Chemical Engineering(Elsevier); Journal of Environmental Management(Elsevier); Journal of Hazardous Materials (Elsevier); Journal of Materials Chemistry A (Royal Society of Chemistry); Journal of Nanoscience and Nanotechnology(American Scientific Publishers); Journal of Photochemistry and Photobiology A: Chemistry (Elsevier); Journal of Physical Chemistry (American Chemical Society); Langmuir(American Chemical Society); Physical Chemistry Chemical Physics(Royal Society of Chemistry); Photochemical & Photobiological Sciences(Royal Society of Chemistry); RSC Advances (Royal Society of Chemistry); Science of the Total Environment(Elsevier); Separation and Purification Technology(Elsevier); Water, Air, & Soil Pollution(Springer); WaterandEnvironmentJournal(Wiley); Water Research (Elsevier); Water Science and Technology(Taylor & Francis)


研究方向
研究领域与兴趣
变价元素在自然和工程体系中的环境氧化还原化学, 包括:
(1)高级氧化技术
设计了由无机污染物亚硫酸盐浓度调控的?OH/SO4?-自发转化的“Photo-sulfite”体系,实现了以铁催化为中心的有机/无机污染物的同时转化(EST. 2013,47, 11174-11181)。巧妙地利用了Cr(VI)活化双氧水生成?OH的反应特性,实现了有毒无机污染物Cr(VI)和As(III)向低毒价态Cr(III)和As(V)的转化(EST. 2013,47, 6486-6492)。提出了亚硫酸盐诱导的Cr(VI)/As(III)同时转化新体系(EST. 2015, 49, 12363-12371), 实现了亚硫酸盐/Cr(VI)/As(III)(或其它有机污染物)多元污染物同时转化的目标,为工业废水低耗能高效绿色处理技术研发提供了重要参考。从“以废治废”的绿色化学角度出发,采用自然广泛存在的土壤粘土铁矿物、蒙脱土、绿泥石和黄钾铁矾等为催化剂,结合光敏化和芬顿反应原理,提出了一类基于天然矿物的绿色高级氧化技术。

(2)变价元素环境地球化学

2012年起在澳洲学习工作期间,作为项目骨干参与了ARC LP项目(Electronflow in iron hyper-enriched acidifying coastal environments),昆士兰州East Trinity CRC CARE土壤修复项目和CRC P High Performance Soils(3950万澳元, 2017-2026)等重大科研课题, 主要负责土壤、沉积物和水体样品采集和有机物表征工作。根据项目结题要求,成果以研究报告(Changes in the surface water chemistry at low tide in drainage channels at East Trinity coastal wetland, Cairns, Technical Report,2015; CRC CARE Technical Report 41: Remediating and managing coastal acid sulfate soils using Lime Assisted Tidal Exchange (LATE) at East Trinity, Queensland)形式发表。

(3)环境瞬态物种识别
阐明了水环境中活性氧自由基的产生规律及其与光照、空气和有机配体浓度等环境条件的关系,有助于从分子水平理解环境有机质与氧化还原性质活泼的过渡金属(例如铁、铬等)的相互作用模式、光致电荷转移和自由基传递反应机理。论文发表在Environ. Sci. Technol.,2008,42, 7260–7266; Environ. Sci. Technol.,2010,44, 263–268; Chem. Eng. J., 2011, 170, 353-362(受邀综述/封面文章/Top cited论文)。申请人总结的ESR检测技术被多部专著或综述(英国皇家化学会专著Photochemistry, 2013, 41, 182-265;Catalysis, 2015, 27, 1-32; Springer出版社2014专著<Heterogeneous Photocatalysis Using InorganicSemiconductor Solids>; Catal. Sci. Technol., 2015,5, 3035-3060)推荐阅读。

欢迎具有环境科学、环境工程、环境化学、地球化学、物理化学、土壤化学、矿物学相关专业背景的青年学子报考课题组硕/博士研究生,欢迎具有上述研究背景的青年才俊以博士后、专职科研人员身份加盟课题组!


开授课程
《工程伦理》工程硕士必修课
《环境化学》本科生专业课



科研项目
[1]国家自然科学基金面上项目,**,主持
[2]国家自然科学基金面上项目,**,主持
[3]国家自然科学基金面上项目,**,主持
[4]国家自然科学基金青年科学基金项目,**,主持
[5]国家重点研发计划子课题, 2020-2023, 主持
[6]上海科委国际合作项目,2019-2021,主持
[7]教育部博士点新教师基金, 010,主持
[8]上海市科委“浦江”人才计划项目,15PJ**,主持
[9]上海市教委/上海市教育发展基金会,“晨光”人才计划项目,10CG34 ,主持



学术成果
论文全文请访问RG:https://www.researchgate.net/profile/Zhaohui_Wang12

最新论文请访问课题组网站:https://www.x-mol.com/groups/er441/publications

2018.7之后论文

(1)Guo, Y., Zhao, Y., Lou, X., Zhou, T., Wang, Z**., Fang, C., Guan, J., Chen, S., Xu, X., Zhang, R-Q. (2020)Efficient degradation of industrial pollutants with sulfur(IV) mediated byLiCoO2 cathode powders of spent lithium ion batteries: A“treating wastewith waste”strategy. Journal of Hazardous Materials,399, 123090
(2)Yuan, R., Jiang, Z., Wang, Z., Gao, S., Liu, Z., Li, M., & Boczkaj, G. (2020). Hierarchical MnO2 nanoflowers blooming on 3D nickel foam: A novel micro-macro catalyst for peroxymonosulfate activation. Journal of Colloid and Interface Science.571, 142-154
(3)Yang, X., Cai, J., Wang, X., Li, Y., Wu, Z., Wu, W. D.,Chen, X., Sun, J., Sun, S.,Wang, Z.(2020). A bimetallic Fe-Mn Oxide-Activated Oxone for In Situ Chemical Oxidation (ISCO) of Trichloroethylene in Groundwater: Efficiency, Sustained Activity and Mechanism Investigation. Environmental Science & Technology.54, 3714?3724
(4)Jannah, Z. J. R., Lim, J. W., Wang, Z., Ding, D., Chua, Y. S., Ng, S. L., Oh, W. D. (2020). In situ nitrogen functionalization of biochar via one-pot synthesis for catalytic peroxymonosulfate activation: Characteristics and performance studies. Separation and Purification Technology, 116702.
(5)Sheng, B., Zhou, X., Shi, Z., Wang, Z.**, Guo, Y., Lou, X., Liu, J. (2020). Is addition of reductive metals (Mo, W) a panacea for accelerating transition metals-mediated peroxymonosulfate activation?. Journal of Hazardous Materials, 386, 121877.
(6)Liu, T., Zhang, Z., Wang, Z., Wang, Z. L., Bush, R. (2019). Highly efficient and rapid removal of arsenic (III) from aqueous solutions by nanoscale zero-valent iron supported on a zirconium 1, 4-dicarboxybenzene metal–organic framework (UiO-66 MOF). RSC Advances, 9(67), 39475-39487.
(7)Wang, Z.**,Wang, X., Yuan, R., Xiao, D. (2020). Resolving the kinetic and intrinsic constraints of heat-activatedperoxydisulfate oxidation of iopromide in aqueous solution, Journal of Hazardous Materials 384, 121281.
(8)Sheng, B., Yang, F., Huang, Y., Wang, Z.**, Yuan, R., Guo, Y.,Lou, X., Liu, J. (2020). Transformation of endogenic and exogenic Cl/Br in peroxymonosulfate-based processes: The importance of position of Cl/Br attached to the phenolic ring. Chemical Engineering Journal, 381, 122634.
(9)Wang, Z.**, Liu, Q., Yang, F., Huang, Y., Xue, Y., Yuan, R.,Sheng, B.,Wang, X. (2019). Accelerated oxidation of 2, 4, 6-trichlorophenol in Cu (II)/H2O2/Cl-system: A unique “halotolerant” Fenton-like process?. Environment international, 132, 105128.
(10)Yang, F., Sheng, B., Wang, Z.**, Yuan, R., Xue, Y., Wang, X., Liu, Q., Liu, J. (2019) An often-overestimated adverse effect of halides in heat/persulfate-based degradation of wastewater contaminants. Environment International130, 104918 (JIF 7.297)
(11)Sheng, B., Yang, F., Wang, Y., Wang, Z.**, Li, Q., Guo, Y.,Lou, X.,Liu, J. (2019). Pivotal roles of MoS2 in boosting catalytic degradation of aqueous organic pollutants by Fe (II)/PMS. Chemical Engineering Journal, 375,121989.
(12)Wang, L., Zhu, Y., Yang, D., Zhao, L., Ding, H., Wang, Z.**. (2019). The mixed marriage of copper and carbon ring-g-C3N4 nanosheet: A visible-light-driven heterogeneous Fenton-like catalyst. Applied Surface Science488, 728-738.
(13)Huang, Y., Sheng, B., Yang, F., Wang, Z.**, Tang, Y., Liu, Q., Wang, X., Liu, J. (2019). Chlorine incorporation into dye degradation by-product (coumarin) in UV/peroxymonosulfate process: A negative case of end-of-pipe treatment. Chemosphere229, 374-382.
(14)Wang, X., Wang, Z.**, Tang, Y., Xiao, D., Zhang, D., Huang, Y., Guo, Y., Liu, J. (2019). Oxidative degradation of iodinated X-ray contrast media (iomeprol and iohexol) with sulfate radical: An experimental and theoretical study. Chemical Engineering Journal368, 999-1012.
(15)Yuan, R., Jiang, M., Gao, S., Wang, Z.**, Wang, H., Boczkaj, G., Liu, Z., Ma, J., Li, Z. (2019). 3D mesoporous α-Co (OH) 2 nanosheets electrodeposited on nickel foam: A new generation of macroscopic cobalt-based hybrid for peroxymonosulfate activation. Chemical Engineering Journal380, 122447.
(16)Yuan, R., Liu, J., Li, Z., Chen, Y., Wang, Z.**, Liu, Z., Jing, G., Zhu, Y., Wang, H. (2019). Ultrahigh-flux (> 190,000 L· m-2 h-1) separation of oil and water by a robust and durable Cu(OH)2 nanoneedles mesh with inverse wettability. Journal of Colloid and Interface Science555, 569–582.
(17)Li, S., Hu, S., Jiang, W., Zhang, J., Xu, K., Wang, Z.**. (2019). In situ construction of WO3 nanoparticles decorated Bi2MoO6 microspheres for boosting photocatalytic degradation of refractory pollutants.Journal of Colloid and Interface Science556, 335–344.
(18)Huang, Y., Sheng, B., Wang, Z.**,Liu, Q., Yuan, R., Xiao, D., Liu, J. (2018). Deciphering the degradation/chlorination mechanisms of maleic acid in the Fe (II)/peroxymonosulfate process: An often overlooked effect of chloride. Water Research145, 453-463.

2018.6之前论文
[1]Yuan, R., Hu, L., Yu, P., Wang, Z.**,Wang, H., Fang, J. (2018) Co3O4nanocrystals/3D nitrogen-doped graphene aerogel: A synergistic hybrid for peroxymonosulfate activation toward the degradation of organic pollutants. Chemosphere210, 877-888(JIF 4.427)
[2]Xiao, J., Zhou, J., Wang, Z.**, Li, S., Zhang, W., Fang, C., Guo, Y., Xiao, D., Lou, X., Liu, J. (2018) Extraction of copper and zinc from naturally contaminated copper mine soils: Chemical fractionation analysis and risk assessment. Journal of Central South University25, 1274?1284. (JIF 0.761)
[3]Li, S., Hu, S., Jiang, W., Liu, Y., Zhou, Y., Liu, J. Wang, Z.**(2018)Facile synthesis of cerium oxide nanoparticles decorated flower-like bismuth molybdate for enhanced photocatalytic activity toward organic pollutant degradation. Journal of Colloid and Interface Science 530, 171–178 (JIF 5.091)
[4]Yang, F., Huang, Y., Fang, C., Xue, Y., Ai, L., Liu, J., Wang, Z.**.(2018) Peroxymonosulfate/base process in saline wastewater treatment: The fight between alkalinity and chloride ions. Chemosphere 199, 84-88 (JIF 4.427)
[5]Yuan, R., Hu, L., Yu, P., Wang, H., Wang, Z.**,Fang, J. (2018) Nanostructured Co3O4grown on nickel foam: An efficient and readily recyclable 3D catalyst for heterogeneous peroxymonosulfate activation. Chemosphere198, 204-215 (JIF 4.427)
[6]Jiang, B., He, H., Xin, S., Tang, Y., Luo, S., Wang, Z.** (2018)pH-dependent roles of polycarboxylates in electron transfer between Cr(VI) and environmentally relevant weak electron donors. Chemosphere197, 367-374 (JIF 4.427)
[7]Sheng, B., Huang, Y., Wang, Z.**, Yang, F., Ai, L., Liu, J. (2018) On peroxymonosulfate-based treatment of saline wastewater: when phosphate and chloride co-exist. RSC Advances8, 13865–13870 (JIF 2.936)
[8]Huang, Y., Wang, Z.**, Liu, Q., Wang, X., Yuan, Z. and Liu, J., (2017) Effects of chloride on PMS-based pollutant degradation: A substantial discrepancy between dyes and their common decomposition intermediate (phthalic acid). Chemosphere187C, 338-346.(JIF 4.427)
[9]Wang, Z.**, Sun, L., Lou, X., Yang, F., Feng, M. and Liu, J., (2017) Chemical instability of graphene oxide following exposure to highly reactive radicals in advanced oxidation processes.Journal of Colloid and Interface Science507, 51-58. (JIF 5.091)
[10]Wang, Z.**, Ai, L., Huang, Y., Zhang, J., Li, S., Chen, J., Yang, F. (2017) Degradation of azo dye with activated peroxygens: when zero-valent iron meets chloride. RSC Advances7, 30941–30948. (JIF 2.936)
[11]Fang, C., Wang, Z.**, Feng, M., Huang, Y., Yang, F. and Liu, J. (2017) Trace bromide ion impurity leads to formation of chlorobromoaromatic by-products in peroxymonosulfate-based oxidation of chlorophenols. Chemosphere182, 624-629. (JIF 4.427)
[12]Li, S., Hu, S., Jiang, W., Liu, Y., Liu, J. and Wang, Z.(2017) Synthesis of n-type TaON microspheres decorated by p-type Ag2O with enhanced visible light photocatalytic activity. Molecular Catalysis435, 135-143.(JIF 3.958)
[13]Lou, X., Fang, C., Geng, Z., Jin, Y., Xiao, D., Wang, Z.**, Liu, J. and Guo, Y. (2017) Significantly enhanced base activation of peroxymonosulfate by polyphosphates: Kinetics and mechanism. Chemosphere173, 529-534. (JIF 4.427)
[14]Fang, C., Lou, X., Huang, Y., Feng, M., Wang, Z.**and Liu, J. (2017) Monochlorophenols Degradation by UV/Persulfate Is Immune to the Presence of Chloride: Illusion or Reality?. Chemical Engineering Journal323, 124–133. (JIF 6.735)
[15]Li, S., Hu, S., Jiang, W., Liu, Y., Liu, J. and Wang, Z.**(2017) Facile synthesis of flower-like Ag3VO4/Bi2WO6 heterojunction with enhanced visible-light photocatalytic activity. Journal of Colloid and Interface Science501, 156–163. (JIF 5.091)
[16]Huang, Y., Yang, F., Ai, L., Feng, M., Wang, C., Wang, Z.**and Liu, J. (2017) On the kinetics of organic pollutant degradation with Co2+/peroxymonosulfate process: When ammonium meets chloride. Chemosphere179, 331-336. (JIF 4.427)
[17]Li, S., Hu, S., Xu, K., Jiang, W., Liu, J. and Wang, Z.**(2017) A Novel Heterostructure of BiOI Nanosheets Anchored onto MWCNTs with Excellent Visible-Light Photocatalytic Activity. Nanomaterials7(1), 22. (JIF 3.504)
[18]Wang, Z.**, Feng, M., Fang, C., Huang, Y., Ai, L., Yang, F., Xue, Y., Liu, W. and Liu, J. (2017) Both degradation and AOX accumulation are significantly enhanced in UV/peroxymonosulfate/4-chlorophenol/Cl? system: two sides of the same coin?. RSC Advances7(20): 12318-12321. (JIF 2.936)
[19]Choppala, G., Bush, R., Moon, E., Ward, N., Wang, Z., Bolan, N. and Sullivan, L. (2017) Oxidative transformation of iron monosulfides and pyrite in estuarine sediments: implications for trace metals mobilisation. Journal of Environmental Management, 186, 158-166. (JIF 4.005)
[20]Liu, W., Fang, C., Huang, Y., Ai, L., Yang, F., Wang, Z.**, Liu, J. (2016) Is UV/Ce(IV) process a chloride-resistant AOPs for organic pollutants decontamination? RSC Advances6, 93558-93563. (JIF 2.936)
[21]Huang, Y., Wang, Z.**, Fang, C., Liu, W., Lou, X., Liu, J. (2016) Importance of reagent addition order in contaminant degradation in an Fe(II)/PMS system. RSC Advances6, 70271-70276. (JIF 2.936)
[22]Lou, X., Xiao, D., Fang, C., Wang, Z., Liu, J., Guo, Y., Lu, S. (2016)Comparison of UV/hydrogen peroxide and UV/peroxydisulfate processes for the degradation ofhumic acid in the presence of halide ions. Environmental Science and Pollution Research23, 4778-4785.(JIF2.800)
[23]Fang, C., Xiao, D., Liu, W., Lou, X., Zhou, J., Wang, Z.**, Liu, J.**(2016)Enhanced AOX accumulation and aquatic toxicity during 2,4,6-trichlorophenol degradation in a Co(II)/peroxymonosulfate/Clsystem. Chemosphere144, 2415–2420. (JIF 4.427)
[24]Jiang, B., Wang, X., Liu, Y., Wang, Z., Zheng, J., Wu, M. (2016)The roles of polycarboxylates in Cr(VI)/sulfite reaction system:Involvementof reactive oxygen species and intramolecular electrontransfer. Journal of Hazardous Materials 304,457–466. (JIF 6.434)
[25]Li, X., Wang, Z., Zhang, B., Rykov, A. I., Ahmed, A. I., Wang, J.(2016) FexCo3?xO4nanocages derived from nanoscale metal–organic frameworks for removal of bisphenol A by activation of peroxymonosulfate. Applied Catalysis B Environmental181,788–799. (JIF 11.698)
[26]Jiang,B., Liu,Y., Zheng,J.**, Tan,M., Wang,Z.**, Wu,M.(2015) Synergetic transformations of multiple pollutants driven by Cr(VI)-sulfite reactions.Environmental Science and Technology 49, 12363-12371.(JIF 6.653)
[27]Xiao, D., Lou, X., Liu, R., Guo, Y., Zhou, J., Fang, C., Wang, Z.**, Liu, J. (2015) Fe–catalyzed photoreduction of Cr(VI) with dicarboxylic acid (C2–C5): divergent reaction pathways. Desalination and Water Treatment 56, 1020-1028(JIF 1.383)
[28]Ramjaun, N.S., Wang, Z.**, Yuan, R., Liu, J.** (2015):Can electrochemical oxidation techniques really decontaminate saline dyes wastewater? Journal of Environmental Chemical Engineering3, 1648-1653.
[29]Zhou, J., Xiao, J., Xiao, D., Guo, Y., Fang, C., Lou, X., Wang, Z.**, Liu, J. (2015): Transformations of chloro and nitro groups during theperoxymonosulfate-based oxidation of 4-chloro-2-nitrophenol. Chemosphere134,446-451.(JIF 4.427)
[30]Li, J., Luo, G.**, Gao, Y., Yuan., S., Du, J., Wang, Z. (2015):Quantitative evaluation of potential ecological risk of heavy metals in sewage sludge from three wastewater treatment plants in main urban area of Wuxi, China. Chemistry and Ecology.31(3), 235-251.(JIF 1.091)
[31]Wang, Z.**, Xiao, D., Bush, R. T., Liu, J. (2015):Coprecipitated arsenate inhibits thermal transformation of 2-line ferrihydrite: Implications for long-term stability of ferrihydrite. Chemosphere 122, 88–93.(JIF 4.427)
[32]Jiang, B., Guo, J., Zheng, X.**, Wang, Z., Zheng, J., Wu, W., Wu, M.**, Xue, Q. (2015):A green approach towards simultaneous remediations of Chromium(VI) and Arsenic(III) in aqueous solution. Chemical Engineering Journal 262, 1144-1151.(JIF 6.735)
[33]Wang, H.,Zhang, L.,Chen, Z.,Hu, J.,Li, S.,Wang, Z., Liu, J.**, Wang, X.(2014): Semiconductor heterojunction photocatalysts: design, construction, and photocatalytic performances.Chemical Society Reviews43, 5234-5244.(JIF 40.182)
[34]Lou, X., Wu, L., Guo, Y., Chen, C., Wang, Z.**, Xiao, D., Fang, C., Liu, J., Zhao, J., Lu, S. (2014): Peroxymonosulfate activation by phosphate anion for organics degradation in water.Chemosphere117, 582–585. (JIF 4.427)
[35]Wang, Z.**, Xiao, D., Liu, J. (2014): Diverse redox chemistry of photo/ferrioxalate system.RSC Advances4, 44654–44658.(JIF 2.936)
[36]Guo, Y., Zhou, J., Lou, X., Liu, R., Xiao, D., Fang, C.,Wang, Z.**, Liu, J.(2014): Enhanced degradation of tetrabromobisphenol A in water by a UV/base/persulfate system: Kinetics and intermediates. Chemical Engineering Journal 254, 538–544(JIF 6.735)
[37]Wang, Z.**, Bush, R. T., Sullivan, L. A., Chen, C.C., Liu, J. (2014) Selective oxidation of arsenite by peroxymonosulfate with high utilization efficiency of oxidant. Environmental Science and Technology48, 3978-3985. (JIF 6.653)
[38]Yuan, R., Wang, Z.**, Hu, Y., Wang, B., Gao, S. (2014) Probing the radical chemistry in UV/persulfate–based saline wastewater treatment: Kinetics modelling and byproducts identification. Chemosphere109, 106–112. (JIF 4.427)
[39]Liu, R., Xiao, D., Guo, Y., Wang, Z.**, Liu, J. (2014) A novel photosensitized Fenton reaction catalyzed by sandwiched iron in synthetic nontronite. RSC Advances4, 12958–12963.(JIF 2.936)
[40]Wang, Z.** (2014)Probing the importance of planar surfaces and crystal edges for electron transfer within iron-bearing clays.RSC Advances4, 31476–31480 (JIF 2.936)
[41]Xiao, D., Guo, Y., Lou, X., Fang, C., Wang, Z.**, Liu, J. (2014) Distinct effects of oxalate versus malonate on the iron redox chemistry: implications for the Photo–Fenton reaction. Chemosphere103, 354–358. (JIF 4.427)
[42]Wang, Z.**, Liu, J. (2014) New insight into photochemical oxidation of Fe(II): the roles of Fe(III) and reactive oxygen species. Catalysis Today 224, 244–250. (JIF 4.667)
[43]Wang, Z.**, Xiao, D., Liu, R., Guo, Y., Lou, X., Liu, J. (2014) Fenton–like degradation of reactive dyes catalyzed by biogenic jarosite. Journal of Advanced Oxidation Technologies17(1), 104–108. (JIF 0.901)
[44]Liu, R., Guo, Y., Wang, Z.**, Liu, J.** (2014): Iron species in layered clay: Efficient electron shuttles for simultaneous conversion of dyes and Cr(VI).Chemosphere95, 643-646. (JIF 4.427)
[45]Guo, Y., Lou, X., Fang, C., Wang, Z.**, Liu, J.**(2013): Novel photo-sulfite system: towards simultaneous transformations of inorganic and organic pollutants.Environmental Science and Technology. 47, 11174?11181 (JIF 6.653)
[46]Wang, Z**., Bush, R. T., Liu, J. (2013): Arsenic(III) and Iron(II) co-oxidation by oxygen and hydrogen peroxide: divergent reactions in the presence of organic ligands. Chemosphere93, 1936–1941. (JIF 4.427)
[47]Wang, Z**., Bush, R. T., Sullivan, L. A., Liu, J. (2013): Simultaneous redox conversion of chromium(VI) and arsenic(III) under acidic conditions. Environmental Science and Technology47 (12), 6486–6492. (JIF 6.653)
[48]Lou, X., Guo, Y., Xiao, D., Wang, Z.**, Liu, J.**(2013): Rapiddyedegradationwithreactiveoxidantsgeneratedbychloride-inducedperoxymonosulfateactivation.EnvironmentalScienceandPollutionResearch20(9), 6317-6323 (JIF 2.800)
[49]Guo, Y., Huang, P., Zhang, W., Yuan, X., Fan, F., Wang, H., Liu, J**.,Wang, Z**. (2013): Leaching of heavy metals from Dexing copper mine tailings pond: A laboratory study. Transactions of Nonferrous Metals Society of China 23, 3068-3075 (JIF 1.795)
[50]Xu, L., Yuan, R., Guo, Y., Xiao, D., Cao, Y., Wang, Z., Liu, J.** (2013): Effects of chloride ions on degradation of 2,4,6-trichlorophenol by Co(II)/peroxymonosulfate (Co/PMS) system: kinetics and intermediates identification. Journal of Wuhan University (Natural Sciences Edition) 59(1), 51-56. (In Chinese)
[51]Xu, L., Yuan, R., Guo, Y., Xiao, D., Cao, Y., Wang, Z.**, Liu, J.** (2013): Sulfate radical-induced degradation of 2,4,6-trichlorophenol: a de novo formation of chlorinated compounds. Chemical Engineering Journal 217,169–173. (JIF 6.735)
[52]Wang, Z., Chen, C.**,Ma, W., Ji, H., Zhao, J.** (2012): Photochemical coupling of iron redox reactions and transformation of low-molecular-weight organic matter. Journal of Physical Chemistry Letters3, 2044 – 2051. (JIF 8.709; Perspective & Cover Article)
[53]Yuan, R., Ramjaun, N.S., Wang, Z.**, Liu, J.** (2012): Photocatalytic degradation and chlorination of azo dye in saline wastewater: kinetics and AOX formation. Chemical Engineering Journal192, 171-178. (JIF 6.735)
[54]Yuan, R., Ramjaun, N.S., Wang, Z.**, Liu, J.** (2012): Concentration profiles of chlorine radicals and their significances in ?OH-induced dye degradation: Kinetic modeling and reaction pathways. Chemical Engineering Journal 209, 38-45. (JIF 6.735)
[55]Guo, Y., Lou, X., Xiao, D., Xu, L., Wang, Z.**, Liu, J. (2012): Sequential reduction-oxidation for photocatalytic degradation of tetrabromobisphenol A: kinetics and intermediates. Journal of Hazardous Materials 241-242, 301–306. (JIF 6.434)
[56]Wang, Z., Xie, X., Liu, J.** (2012): Experimental measurements of short-term adsorption of Acidithiobacillus ferrooxidansonto chalcopyrite. Transactions of Nonferrous Metals Society of China22,442-446. (JIF 1.795)
[57]Zhang, W., Wang, Z., Zhang, C. Liu, J.**, Hong, W. (2012): Pilot-scale treatment of mine wastewater by Fenton-HDS combined technology. Chinese Journal of Environmental Engineering 6(4), 1117-1120. (In Chinese)
[58]Zhang, M., Tian, S., Zhang, C., Wang, Z., Liu, J**. (2012): Degradation of flotation reagent-butyl xanthate by O3/H2O2. Chinese Journal of Environmental Engineering 6(3), 729-733. (In Chinese)
[59]Wang, Z.**, Song, W., Ma, W., Zhao J. (2012): Environmental photochemistry of iron complexes and their involvement in environmental chemical processes. Progress in Chemistry 24,423-432. (JIF 0.820) (In Chinese)
[60]Wang, Z., Ma, W., Chen, C., Ji, H., Zhao, J.** (2011): Probing paramagnetic species in titania-based heterogeneous photocatalysis by electron spin resonance (ESR) spectroscopy-A mini review. Chemical Engineering Journal 170, 353-362. (JIF 6.735, Cover Article)
[61]Chen, X., Ma, W., Li, J., Wang, Z., Chen, C., Ji, H., Zhao, J.** (2011): Photocatalytic Oxidation of organic pollutants catalyzed by an iron complex at biocompatible pH values: using O2as main oxidant in a Fenton-like reaction. The Journal of Physical Chemistry C115, 4089–4095. (JIF 4.484)
[62]Wang, Z.**, Yuan, R., Guo, Y., Xu, L., Liu, J.** (2011): Effects of chloride ions on bleaching of azo dyes by Co2+/Oxone regent: kinetic analysis. Journal of Hazardous Materials 190, 1083-1087. (JIF 6.434)
[63]Yuan, R., Ramjaun, N.S., Wang, Z.**, Liu, J.** (2011): Effects of chloride ion on degradation of Acid Orange 7 by sulfate radical-based advanced oxidation process: Implications for formation of chlorinated aromatic compounds. Journal of Hazardous Materials196, 173-179.(JIF 6.434)
[64]Ramjaun, N.S., Yuan, R., Wang, Z.**, Liu, J.** (2011): Degradation of reactive dyes by contact glow discharge electrolysis in the presence of Cl-ions: kinetics and AOX formation. Electrochimica Acta 58, 364-371. (JIF 5.116)
[65]Wang, Z., Xie, X., Liu, J.** (2011): Numerical modeling of potential profiles in electrical double layer of Acidithiobacillus ferrooxidanscell surface. The Chinese Journal of Nonferrous Metals21(6), 1485-1490. (In Chinese)
[66]Wang, Z., Ma, W., Chen, C., Ji, H., Zhao, J.** (2011): Photodegradation mechanism of chlorophenols pollutants by TiO2 photocatalysis. Scientia Sinica Chimica 41(8), 1286 -1297. (In Chinese)
[67]Zhang, C., Liu, J., Wang, H., Wang, Z.**(2011): Treatment of acid-alkali mixed mine wastewater with oxidation process. Journal of Wuhan University (Natural Sciences Edition) 57(2), 179-184. (In Chinese)
[68]Zhang, C., Liu, J.**, Pan, B., Wang, Z., Zhan, Y., Zhang, W. (2011): Industrial experiments for treatment of mine wastewater from Dexing copper mine. Metal Mine40(07), 146-149. (In Chinese)
[69]Yuan, R., Ye, J., Wang, Z., Liu, J.** (2011): Dynamic variation characteristics of phosphorus in paddy field runoff in saline land and its potential environmental effect. Journal of Anhui Agricultural Sciences39(19), 11656-11659. (In Chinese)
[70]Ye, J., Yuan, R., Wang, Z., Liu, J.** (2011): Dynamic changes of nitrogen in saline-alkaline paddy field and its potential environmental impacts. Agricultural Sciences and Technology12(3), 443-446.
[71]Wang, Z., Chen, X., Ma, W., Chen, C., Zhao, J.** (2010): Photochemical cycling of iron mediated by dicarboxylates: special effect of malonate. Environmental Science and Technology 44,263–268. (JIF 6.653)
[72]Wang, Z., Xie, X., Xiao, S., Liu, J.** (2010): Comparative study of interaction between pyrite and cysteine by thermogravimetric and electrochemical techniques. Hydrometallurgy 101, 88-92. (JIF 3.300)
[73]Wang, Z., Xie, X., Xiao, S., Liu, J.** (2010): Adsorption behavior of glucose on pyrite surface investigated by TG, FTIR and XRD analyses. Hydrometallurgy 102 (1-4), 87-90. (JIF 3.300)
[74]Wang, Z., Ma, W., Chen, C., Zhao, J.** (2009): Light-assisted decomposition of dyes over iron-bearing soil clays in the presence of H2O2. Journal of Hazardous Materials 168, 1246-1252. (JIF 6.434)
[75]Wang, Z., Ma, W., Chen, C., Zhao, J.** (2008): Photochemical coupling reactions between Fe(III)/Fe(II), Cr(VI)/Cr(III) and polycarboxylates: inhibitory effect of Cr species. Environmental Science and Technology 42, 7260–7266. (JIF 6.653)
[76]Liu, J.**, Wang, Z., Chen, H., Zhang, Y. (2006): Study on interfacial electrokinetic characteristics before and after bioleaching microorganism adhesion to pyrite. Transactions of Nonferrous Metals Society of China16, 676-680. (JIF 1.795)
[77]Liu, J.**, Wang, Z., Li, B., Zhang, Y. (2006): Interaction between pyrite and cysteine. Transactions of Nonferrous Metals Society of China16, 943-946. (JIF 1.795)
[78]Liu, J.**, Xia, H., Wang, Z. (2004): Treatment of waste water from powder blue production with sulfur precipitation-coagulation. Journal of Central South University (Science and Technology)35, 941-944. (In Chinese)
[79]Liu, J.**, Wang, Z., Geng, M., Qiu, G. (2006): Progress in the study of polyphase interfacial interactions between microorganism and mineral in bio-hydrometallurgy. Mining and Metallurgical Engineering26, 40-44. (In Chinese)
[80]Liu, J.**, Xia, H., Wang, Z., Hu,Y. (2004): Investigation of bacterial oxidation activity in heap leaching. Journal of Central South University of Technology 11, 375-379. (JIF 0.761)


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