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民      族

汉

出 生 地

山西晋中

政治面貌

中共党员

学历/学位

研究生/博士

职      务

专业技术

职      务

教授

研究领域

污染物环境赋存及光化学转化、卤素光化学活化及其环境效应、新污染物光降解与防治控制

主讲课程

《分析化学》、《现代环境分析》、《英文科技论文写作与投稿》

办公地点

材化楼1202

教育背景

时间段

公司

专业

学位

1996.09-2000.06

吉林大学

环境工程

学士

2001.09-2004.06

南开大学

环境科学

硕士

2004.09-2010.05

美国麻省大学

化学

硕士、博士

工作经历

2004.09-2008.06

美国麻省大学

助教

2008.07-2010.05

美国Coviden公司

研究员

2010.09-2018.12

温州大学

专任教师

2019.01-2024.09

中南民族大学

专任教师

2024.10-至今

edf186壴定发娱乐官网

专任教师

教学科研情况

[1] 企业委托项目：质粒与mRNA理化检测方法开发与验证，2024-2025，主持；

[2] 企业委托项目：水源地及污水中硫酸盐防治控制方法研究，2024-2025，主持；

[3] 国家民委重点实验室建设项目：酚-高碘酸盐氢键复合物可见光活化溶解氧机制，2024-2025，主持；

[4] 校级学术团队建设项目：“环境污染与防治”，2020-2023，主持；

[5] 中央高校科技攻关项目：地表水中典型二维材料与腐殖质的吸附耦合及对有机污染物光降解的影响机制，2020-2021，主持；

[6] 校重点研发项目：环境水中典型有机污染物光化学转化机理研究，2019-2023，主持；

[7] 企业委托项目：食品烘烤设备烟气排放净化控制，2018-2019，主持；

[8] 浙江省自然科学基金：超声波空化效应对有机污染物在样品前处理中的影响及其控制，2017-2019，主持；

[9] 教改校重点项目：分析化学双语教学探索与实践，2016-2017，主持；

[10] 国家自然科学基金面上项目：天然水中邻苯二甲酸酯类塑化剂的赋存与光降解机理研究，2015-2018，主持；

[11] 浙江省钱江人才计划项目：果蔬中酚类物质与其表面二氰蒽醌农药的光化学作用机理，2014-2016，主持；

[12] 国家自然科学基金青年基金：天然酚类抗氧剂对果蔬表面二噻农杀菌剂光化学转化的影响及机理研究，2013-2015，主持；

[13] 中科院生态环境研究中心国家重点实验室开放基金：温瑞塘河水体中汞的形态分布与光化学转化机制，2012-2013，主持；[14] 国家自然科学基金面上项目：串联反应构建3-取代异苯并呋喃酮骨架及其不对称合成的研究，2012-2015，参与；

[15] 美国国家科学基金：沿海地区海水中类固醇类雌激素的环境赋存与光化学降解，   2008-2011，参与；

[16] 美国农业部重点项目：曼越梅中抗氧化剂分离鉴定及其自由基淬灭机制，2008-2010，参与；

[17] 美国国家科学基金：大气水相中溶解性含硫化合物在铁络合物存在条件下的光化学氧化机理研究，2004-2007，参与.

荣誉奖励

[1]   2021-2024年度研究生“优秀毕业生”、“科研标兵”、“优秀毕业论文”、“优秀研究生干部”等指导老师；

[2]   2020-2021年度“先进基层工会工作者”；

[3]   2017年入选温州市“551人才工程”；

[4]   2015年入选浙江省“钱江人才计划”；

[5]   2013年浙江省“挑战杯”科技竞赛优秀指导老师；

[6]   2008年获美国化学协会(ACS)颁发Graduate Student   Award in Environmental Chemistry荣誉；

[7]   2008年获美国化学协会(ACS)颁发Philip L.   Levins Memorial Prize奖励；

[8]   2006年获美国化学协会(ACS)颁发American   Institute of Chemists Award奖励。

出版情况

[1]      Z. Tian, Y. Li, L. Wang, R. Xu, A. Wei, J. He, C. Wang. Insights into the generation of multiple reactive species in UV₂₅₄/PMS/I^-   system and their roles for degradation of phenolic and non-phenolic pollutants. Journal of Water Process Engineering, 2024, 61, 105345.

[2]      T.H. Nafea, F.S. Chan, Y. Xu, C. Wang, X. Wang, W. Zhao, D. Ji, H. Xiao, J. He. Microplastics Aloft: A comprehensive exploration of sources, transport, variations, interactions and their implications on human health in the atmospheric realm. Earth-Science Reviews, 2024, 255, 104864.

[3]      Z. Xiao, A. Yusuf, Y. Ren, G. Chen, C. Wang, J. He. High-Efficiency NO conversion via In-Situ grown covalent organic framework on g-C₃N₄   nanosheets with Single-Atom platinum photocatalyst. Chemical   Engineering Journal, 2024, 497,   154487.

[4]      Z. Xiao, H. Do, A. Yusuf, H. Jia, H. Ma, S. Jiang, J. Li, Y. Sun, C. Wang, Y. Ren, G. Z. Chen, J. He. Facile synthesis of multi-layer Co(OH)₂/CeO₂-g-C₃N₄ ternary synergistic heterostructure for efficient photocatalytic oxidation of NO under visible light. Journal of  Hazardous Materials, 2024, 462,   132744.

[5]      Z. Xiao, Y. Ren, G. Chen, Y. Sun, C. Wang, J. He. Study of pyrene-based covalent organic frameworks for efficient photocatalytic oxidation of low-concentration NO. Journal of Environmental Chemical Engineering, 2024, 12, 113470.

[6]      S. Jiang, H. Do, A. Yusuf, Z. Xiao, C. Wang, J. Li, Y. Sun, Y. Ren, J. He. Camellia oleifera shell–reduced graphene oxide for adsorption of   copper(II). Materials Chemistry and Physics, 2024, 314, 128818.

[7]      W. Wang, J. Bie, A. Yusuf, Y. Liu, X. Wang, C. Wang, G.Z. Chen, J. Li, D. Ji, H. Xiao, Y. Sun, J. He. A new vehicle specific power method based on internally observable variables: Application to CO₂ emission assessment for a hybrid electric vehicle. Energy Conversion and Management, 2023, 286, 117050.

[8]      Z. Wan, C. Wang, C. Yang, D. Ma, H. Ji, C. Chen, W. Ma*, J. Zhao. Unusual   catalytic hydrogenation caused by photoinduced solid frustrated Lewis pairs. Applied   Catalysis B: Environmental, 2023, 324, 122237.

[9]      D. Li, C. Pan, Y. Zong, D. Wu, Y. Ding, C. Wang, S. Wang, J. Crittenden.   Ru(III)-periodate for high performance and selective degradation of aqueous   organic pollutants: Important role of Ru(V) and Ru(IV). Environmental Science & Technology, 2023, 57, 12094-12104.

[10]  Z. Yin, S. Liu, Z. Tian, X. Zhao, J. He, C. Wang. Carbon-based nanomaterials mediated adsorption and photodegradation of typical organic contaminants in aqueous fulvic acid solution. Water Science   & Technology, 2023, 88, 1863-1874.

[11]  X. Jiao, R.   Zeng, G. Lan, J. He, C. Wang. Mechanistic study on photochemical generation of I^•/I₂^•- radicals in coastal atmospheric aqueous aerosol. Science of the Total   Environment, 2022, 825, 154080.

[12]  X. Jiao, C. He,   H. Yu, J. He, C. Wang. Photo-generated hydroxyl radicals   contribute to the formation of halogen radicals leading to ozone depletion on and within polar stratospheric clouds surface. Chemosphere,   2022, 291, 132816.

[13]  K. Chen, J. Xu, L. Famiyeh, Y. Sun, D. Ji, H. Xu, C. Wang, S.E. Metcalfe, R. Betha, S.N. Behera, C. Jia, H. Xiao, J. He. Chemical Constituents, Driving Factors,   and Source Apportionment of Oxidative Potential of Ambient Fine Particulate Matter in a Port City in East China. Journal of Hazardous Materials, 2022, 440, 129864.

[14]  C. He, Z. Yin, J. He, J. Lv, C. Wang. Occurrence and photodegradation of typical steroid hormones in surface water of urban lakes in Wuhan, China. Journal of Environmental Chemical Engineering, 2022, 10, 108602.

[15]  A. Yusuf, Y.   Sun, S. Liu, C. Wang, Y. Ren, H. Xiao, C. Snape, J. He*. Study   of the effect of Ceria on the activity and selectivity of Co and Ce co-doped birnessite manganese oxide for formaldehyde oxidation. Journal of   Hazardous Materials, 2022, 424, 127583.

[16]  C. Pan, L. Fu, F. Lide, Y. Ding, C. Wang, J. Huang, S. Wang. Insights into bromate reduction by Fe(II): Multiple radicals generation and carbamazepine   oxidation. Chemical Engineering Journal, 2022, 431, 133957.

[17]  L. Fu, F. Lide,   Y. Ding, C. Wang, J. Zhou, J. Huang. Mechanism insights into activation of hydroxylamines for generation of multiple reactive species in photochemical degradation of bromophenols. Separation and Purification Technology, 2022, 285, 120282.

[18]  Y. Ding*, L. Fu, X. Peng, M. Lei, C. Wang, J. Jiang. Copper catalysts for radical and nonradical persulfate based advanced oxidation processes: Certainties and uncertainties. Chemical Engineering Journal, 2022, 427, 131776.

[19]  L. Famiyeh, K.   Chen, J. Xu, Y. Sun, Q. Guo, C. Wang, J. Lv, Y. Tang, H. Yu, C. Snape, J. He. A review on analysis methods, source identification, and cancer risk evaluation of atmospheric polycyclic aromatic hydrocarbons. Science   of The Total Environment, 2021, 789, 147741.

[20]  D. Wan, H. Wang,   V. Sharma, S. Selvinsimpson, H. Dai, C. Wang, Y. Chen. Mechanistic   investigation of enhanced photoreactivity of dissolved organic matter after   chlorination. Environmental Science & Technology, 2021, 55,   8937-8946.

[21]  J. Xu, C. Jia, H. Yu, H. Xu, D. Ji, C. Wang, H. Xiao, J. He. Characteristics, sources, and health risks of PM_2.5-bound trace elements in   representative areas of Northern Zhejiang Province, China. Chemosphere, 2021, 272, 129632.

[22]  D.   Murindababisha, A. Yusuf, Y. Sun, C. Wang, Y. Ren, J. Lv, H. Xiao, G. Z. Chen, J. He. Current progress on catalytic oxidation of toluene: a review. Environmental Science and Pollution Research, 2021, 28, 62030-62060.

[23]  K. Chen, S. E. Metcalfe, H. Yu, J. Xu, H. Xu, D. Ji, C. Wang, H. Xiao, J. He.  Characteristics and source attribution of PM_2.5 during 2016 G20 Summit in Hangzhou: Efficacy of radical measures to reduce source emissions. Journal of Environmental Sciences, 2021, 106, 47-65.

[24]  Y. Ding, X. Wang, L. Fu, X. Peng, C. Pan, Q. Mao, C. Wang, J. Yan. Nonradicals   induced degradation of organic pollutants by peroxydisulfate (PDS) and   peroxymonosulfate (PMS): Recent advances and perspective. Science of The Total Environment, 2021, 765, 142794.

[25]  X. Jiao, C. He,   P. Zhou, F. Chen, C. Wang. Pre-column   derivatization and HPLC-ESI-MS/MS determination of fatty acids in Sargassum   fusiforme algae. Journal of Food   Measurement and Characterization, 2021,   15, 4482-4489.

[26]  A. Yusuf, Y. Sun, Y. Ren, C. Snape, C. Wang*, H. Jia, J. He*. Opposite effects of   Co and Cu dopants on the catalytic activities of birnessite MnO₂ catalyst for low-temperature formaldehyde oxidation. Journal of Physical   Chemistry C, 2020, 124, 26320-26331.

[27]  X. Jiao, Z. Li,   J. He, C. Wang. Enhanced Photodegradation of Applied Dithianon Fungicides on Plant Leaves by Dissolved Substances in Atmosphere under   Simulated Sunlight. Chemosphere, 2020, 254, 126807.

[28]  A. Yusuf, Y.   Sun, C. Snape, J. He, C. Wang, Y. Ren, H. Jia. Low-temperature formaldehyde oxidation over manganese oxide catalysts: Potassium mediated   lattice oxygen mobility. Molecular Catalysis, 2020, 497, 111204.

[29]  D. Wan, H. Wang,   I.P. Pozdnyakov, C. Wang, J. Su, Y. Zhang, Y. Zuo, D.D. Dionysiou, Y. Chen. Formation and enhanced photodegradation of chlorinated derivatives of   bisphenol A in wastewater treatment plant effluent. Water Research,   2020, 184, 116002.

[30]  J. Xu, C. Jia,   J. He, H. Xu, Y. Tang, D. Ji, H. Yu, H. Xiao, C. Wang. Biomass burning   and fungal spores as sources of fine aerosols in Yangtze River Delta, China-using multiple organic tracers to understand variability, correlations   and origins. Environmental Pollution, 2019, 251, 155-165.

[31]  Q. Yu, X. Xiong,   J. He, Y. Zuo, Y. Chen, C. Wang. Photolysis of bis(2-ethylhexyl)   phthalate at the presence of natural water photoreactive constituents under   simulated-sunlight irradiation. Environmental Science and Pollution   Research, 2019, 26797-26806.

[32]  L. Cheng, L.   Zhang, Y. Zuo, C. Wang. Graphene oxide-based molecularly imprinted   polymers modified with β-cyclodextrin   for selective extraction of di(2-ethylhexyl)phthalate in environmental waters. Journal of Separation Science, 2019, 42, 1248-1256.

[33]  C. Ding, Q. Wu,   X. Xiong, C. Wang. Molecularly imprinted polymers with dual template   and bifunctional monomers for selective and simultaneous solid-phase   extraction and gas chromatographic determination of four plant growth regulators in plant-derived tissues and foods. Food Analytical Methods, 2019, 12, 1160-1169.

[34]  S. Pan, J. He, C. Wang, Y. Zuo, Exfoliation of two-dimensional phosphorene sheets with enhanced photocatalytic activity under simulated sunlight. Materials Letters, 2018, 212, 311-314.

[35]    J.   Xu, J. He, H. Xu, D. Ji, C. Snape, H. Yu, C. Jia, C. Wang, J. Gao.   Simulataneous measurement of multiple organic tracers in fine aerosols from   biomass burning and fungal spores by HPLC-MS/MS. RSC Advances, 2018,   8, 34136-34150.

[36]    C.   Ding, J. He, M. Xu, C. Wang. Fabrication of β-cyclodextrin   modified mesostructured silica coated multi-walled carbon nanotubes   composites and application for paraben removal. Water Science and Technology, 2018, 78, 1001-1009.

[37]    Z.   Li, W. Shi, L. Cheng, S. Pan, C. Wang. Screening of the phenolic profile and their antioxidative activities of methanol extracts of Myrica rubra fruits, leaves and bark. Journal of Food Measurement and Characterization, 2018, 12, 128-134.

[38]    M. Tomatis, H. Xu, C. Wei, M.T. Bishop, J. He, C. Wang, M. Zhao, H. Xiao,   S.N. Behera, B. Tang. A Comparative Study of Mn/Co Binary Metal Catalysts   Supported on Two Commercial Diatomaceous Earths for Oxidation of Benzene. Catalysts, 2018, 8, 111.

[39]    L. Cheng, S. Pan, C. Ding, J. He, C. Wang, Dispersive solid-phase microextraction with graphene oxide based molecularly imprinted polymers for   determining bis(2-ethylhexyl) phthalate in environmental water. Journal of  Chromatography A, 2017, 1511, 85-91.

[40]  S. Pan, C. Feng,  J. Lin, L. Cheng, C. Wang, Y. Zuo. Occurrence and Photodegradation of  Methylmercury in Surface Water of Wen-Rui-Tang River Network, Wenzhou, China.  Environmental Science and Pollution Research, 2017, 24,   11289-11298. 

[41]  A. Yusuf, C.   Snape, J. He, H. Xu, C. Liu, M. Zhao, G.Z. Chen, B. Tang, C. Wang, J.   Wang, S.N. Behera. Advances on transition metal oxides catalysts for   formaldehyde oxidation: A review. Catalysis Reviews - Science and   Engineering, 2017, 59, 189-233.

[42]  J. Xu, M. Xu, C.   Snape, J. He*, S.N. Behera, H. Xu, D. Ji, C. Wang, et al. Temporal and spatial variation in major ion chemistry and source identification of   secondary inorganic aerosols in Northern Zhejiang Province, China. Chemosphere,  2017, 179, 316-330.

[43]  J. Xu, H. Xu, H.   Xiao, L. Tong, C. Snape, C. Wang, J. He. Aerosol composition and sources during high and low pollution periods in Ningbo, China. Atmospheric   Research, 2016, 178-179, 559-569.

[44]  X. Xie, C. Feng,   M. Ye, C. Wang. Speciation Determination of Selenium in Seafood by   High-Performance Ion-Exchange Chromatography-Hydride Generation-Atomic   Fluorescence Spectrometry. Food Analytical Methods, 2015, 8,   1739-1745.

[45]  J. Lin, W. Chen,   H. Zhu, C. Wang. Determination of free and total phthalates in   commercial whole milk products in different packaging materials by gas   chromatography-mass spectrometry. Journal of Dairy Science, 2015, 98,   8278-8284.

[46]  G. Zheng, C. Han, Y. Liu, J. Wang, M. Zhu, C. Wang, Y. Shen. Multiresidue analysis of 30 organochlorine pesticides in milk and milk powder by gel permeation chromatography-solid phase extraction-gas chromatography-tandem mass spectrometry. Journal of Dairy Science, 2014, 97, 6016-6026.

[47]  Y. Shen, C. Han,   B. Liu, Z. Lin, X. Zhou, C. Wang, Z. Zhu. Determination of   vanillin, ethyl vanillin, and coumarin in infant formula by liquid chromatography-quadrupole linear ion trap mass spectrometry. Journal of   Dairy Science, 2014, 97, 679-686.

[48]  Y. Shen, B.   Hu, X. Chen, Q. Miao, C. Wang, Z. Zhu, C. Han. Determination of Four Flavorings in Infant Formula by Solid-Phase Extraction and Gas Chromatography–Tandem Mass Spectrometry. Journal of Agricultural   and Food Chemistry, 2014, 62, 10881-10888.

[49]  H. Zhu, W. Chen,   Z. Li, X. Tang, C. Wang. Extraction of natural estrogens in   environmental waters by dispersive multi-walled carbon nanotubes-based agitation-assisted adsorption and ultrasound-assisted desorption. Analytical   Methods, 2014, 6,1235-1241.

[50]  X. Tang, L. Li,   B. Shen, C. Wang. Halloysite-nanotubes supported FeNi alloy   nanoparticles for catalytic decomposition of toxic phosphine gas into yellow phosphorus and hydrogen. Chemosphere, 2013, 91, 1368-1373.

[51]  X. Song, M. Ye,   X. Tang, C. Wang. ILs-DLLME-HPLC-AFS determination of mercury species in environmental waters. Journal of Separation Science, 2013, 36, 414-420.

[52]  X. Tang, C. Wang. Adsorption of Ni(II) in aqueous   solution by polyaminated cross-linked Ni(II)-imprinted chitosan derivative   beads. Environmental Engineering Science, 2013,   30, 646-652.

[53]  Z. Li, F. Chen,   X. Wang, C. Wang. Ionic liquids dispersive liquid–liquid   microextraction and high-performance liquid chromatographic determination of   irbesartan and valsartan in human urine. Biomedical Chromatography,   2013, 27, 254-258.

[54]  J. He, H. Xu, R.   Balasubramanian, C. Chan, C. Wang. Comparison of NO₂ and SO₂ measurements using different passive samplers in tropical environment. Aerosol and Air Quality Research, 2013, 14, 355-363.

[55]  H. Wang, C.   Wang, F. Chen, M. Ma, Z. Lin, W. Wang, Z. Xu, X. Wang. Modification to Degradation of Hexazinone in Forest Soils Amended with Sewage Sludge. Journal   of Hazardous Materials, 2012, 199, 96-106.

[56]  C. Wang, Y. Zuo, J. A. Vinson, Y. Deng. Absorption and excretion of cranberry-derived phenolics in humans. Food Chemistry, 2012, 132, 1420-1428.

[57]  C.   Wang, J.   Zhao, F. Chen, Y. Cheng, A. Guo. Separation, identification, and quantitation   of phenolic acids in Chinese waxberry (Myrica Rubra) juice by   HPLC-PDA-ESI-MS. Journal of Food Science, 2012, 77, 272-277.

[58]  H. Wang, H. Yan, C. Wang, F. Chen, M. Ma, W. Wang, X. Wang. Analysis of phenolic pollutants in human samples by high performance capillary electrophoresis   based on pretreatment of ultrasound-assisted emulsification microextraction and solidification of floating organic droplet. Journal of Chromatography   A, 2012, 1253, 16-21.

[59]  Y. Zou, H. Wang,   P. Wang, C. Wang, X. Wang. Effects of imidazolium room temperature   ionic liquids on fluorescent properties of norfloxacin. Luminescence,   2012, 27, 495-500.

[60]  C. Wang, Y.   Zuo. Ultrasound-assisted hydrolysis and gas chromatography-mass spectrometric determination of phenolic compounds in cranberry products. Food Chemistry,   2011, 128, 562-568.

[61]  X. Tang, J.   Wang, C. Wang, B. Shen. A novel surface activation method for Ni/Au electroless plating of acrylonitrile-butadiene-styrene. Surface &   Coatings Technology, 2011, 206, 1382-1388.

[62]  X. Liu, A. Zhao,   A. Zhang, H. Liu, C. Wang, X. Wang. Dispersive liuqid-liquid   microextraction and gas chromatography-mass spectrometry determination of polychlorinated biphenyls and polybrominated diphenyl ethers in milk. Journal of Separation Science, 2011, 34, 1084-1090.

[63]  C. Wang,   C. Xu, F. Chen, X. Tang. Simultaneous determination of three naturally   occurring estrogens in environmental waters by high-performance liquid   chromatography. Journal of Separation Science, 2011, 34, 2371-2375.

[64]  H. Wang, C. Wang, F. Chen, X. Wang. Anaerobic degradation of chlorothalonil in four   paddy soils, Ecotoxicology and Environmental Safety, 2011, 74,   1000-1005.

[65]    C. Wang,   Y. Zuo, et al. Selective catalytic reduction of NO by NH₃ in flue gases over a novel Cu-V/Al₂O₃ catalyst at low temperature. Environmental Engineering Science, 2009, 26, 1429-1434.

[66]    Y. Zuo, C. Wang, et al. Simultaneous determination of creatinine and uric acid in human urine by high performance liquid chromatography. Analytical Sciences, 2008, 24, 1589-1592.

[67]    Y. Zuo, C.   Wang, et al. Simultaneous determination of   anthraquinones in radix Polygoni multiflori by capillary gas chromatography   coupled with flame ionization and mass spectrometric detection. Journal of   Chromatography A, 2008, 1200, 43-48.

[68]    Y. Zuo, C.   Wang, C. Tuan. Simultaneous determination of   nitrite and nitrate in dew, rain, snow and lake water samples by ion-pair   high-performance liquid chromatography. Talanta, 2006, 70, 281-285.

[69]    王丽娜，黎怡洋，赵鑫月，刘思玉，王成俊. 环境水中卤代有机污染物的赋存、来源和生成途径.   中南民族大学学报，2024.

[70]    黎怡洋，王丽娜，文晓轩，杨宸王成俊. 环境中光致生成自由基检测方法研究进展.   中南民族大学学报，2024.

[71]    高泽宇，田振，刘思玉，赵鑫月，兰广偲，王成俊. 紫外/高铁酸盐耦合体系降解水中四种类固醇激素的研究.   中南民族大学学报，2024.

[72]    熊希瑶，贺聪聪，焦啸宇，王成俊. 水生态环境中邻苯二甲酸酯(PAEs)塑化剂的赋存及行为归趋.   中南民族大学学报，2021，3，238-245.

[73]    王成俊, 郭爱红,   王福生,   张宝贵.   次磷酸钠工业生产过程中PH₃尾气处理技术. 天津化工,   2003, 5, 37-38.

[74]    王成俊, 谢藏娥，郭爱红,   王福生,   张英喆，张宝贵.   电解硫酸钠水溶液处理十二碳硫醇恶臭污水.   城市环境与城市生态, 2003,   3, 63-67.

[75]    王成俊,韩晓丽,郭爱红,王凤花,张宝贵,陈涛.锂离子二次电池电解质的研究进展.   天津化工, 2004, 18, 1-3.

[76]  王成俊,郭爱红,王凤花,韩晓丽,张宝贵.   锂离子电池电解质盐LiPF₆中微量水的测定. 南开大学学报，2003,   36, 59-62.

发明专利：

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