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更新时间:2021.12.21
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邓靖

| 博士 副教授 博士生导师

单位:

职务: 市政工程研究所所长

研究方向:

办公地址: 浙江工业大学屏峰校区建A206

办公电话: 85290824

电子邮箱: zjut_djing@163.com

手机访问
  • 个人简介

    工学博士,毕业于同济大学环境科学与工程学院市政工程专业,副教授,硕士/博士研究生导师,浙江工业大学土木工程学院市政工程研究所所长,国家注册公用设备工程师(给水排水),国家注册环评工程师,中国水协青年委委员,《环境科学领域高质量科技期刊分级目录》评价专家组成员,国家自然科学基金项目通讯评审专家,浙江省自然科学基金项目通讯评审专家。发表学术论文近100篇,其中SCI收录80余篇,ESI高被引论文12篇,入选美国斯坦福大学发布的全球前2%顶尖科学家榜单(2020、2021年),入选“浙江省高校领军人才培养计划”高层次拔尖人才。主持国家级和省部级科研项目6项,授权国家发明专利8件,转化2件。担任Environmental Science & Technology, Water Research, Journal of Hazardous Materials,Chemical Engineering Journal, Science of the Total Environment和环境科学等40余本国内外知名学术期刊审稿人。


  • 教学与课程

    本科生课程:《水质工程学》、《建筑消防》、《生产实习》、《毕业设计》

    研究生课程:《高等水化学》、《水化学前沿》


  • 育人成果

    1. 省优秀硕士学位论文:徐梦苑(2021

    2. 研究生国家奖学金:冯善方(2016年)、卢遇安(2016年)、程永清(2017年)、徐梦苑(2019年)、陈胜男(2019年)、朱甜歆(2020年)、蔡安洪(2020年)、叶程(2021年)

    3. 省优秀毕业生:冯善方(2017年)、卢遇安(2017年)、程永清(2018年)、徐梦苑(2020年)、陈胜男(2021年)

    4. 校优秀硕士学位论文:冯善方(2017年)、程永清(2018年)、葛勇建(2018年)、徐梦苑(2020年)、陈胜男(2021年)

    5. 校十佳学术之星:徐梦苑(2019年)


  • 科研项目

    [1] 有序介孔LDHs催化过氧单硫酸盐去除水中芳香族有机胂及同步控制释放无机砷研究,51978618,国家自然科学基金面上项目,60万,主持;

    [2] 三维磁性有序介孔材料的可控构筑及其催化过硫酸盐的机理研究,51508509,国家自然科学基金青年科学基金项目,20万,主持;

    [3] 有序介孔LDHs的可控构筑及类光芬顿增效氧化阿散酸的机制研究,LY21E080018,浙江省自然科学基金面上项目,10万,主持;

    [4] 双氧化剂协同调理改善污泥脱水性能及其机理研究,LY18E080036,浙江省自然科学基金面上项目,10万,主持;

    [5] 基于新型有序介孔铁氧体/Oxone氧化体系的典型PhACs污染控制技术研究,LY15E080019,浙江省自然科学基金面上项目,8万,主持;

    [6] 磁性有序介孔铁氧体催化臭氧氧化水中环磷酰胺的研究,2015M581936,中国博士后科学基金面上项目,5万,主持;

    [7] 磁性介孔催化材料在垃圾渗滤液处理中的应用,“南太湖精英计划”-领军型创业团队,200万,主持;

    [8] 长江流域饮用水源中典型PPCPs在紫外/氯胺工艺中的降解规律及DBPs的生成机制,YRWEF201901,长江水环境教育部重点实验室开放课题,6万,主持;

    [9] 湖州南太湖水源供水区饮用水安全保障综合应用示范,2017ZX07201003-04,国家“十三五”科技重大水专项,140万,参与;

    [10] 江苏太湖水源饮用水安全保障技术集成与综合示范,2012ZX07403-001,国家“十二五”科技重大水专项,参与;

    [11] 组合消毒工艺中持久性人工甜味剂的转化规律及其氯代DBPs的生成机理研究,51678527,国家自然科学基金面上项目,62万,参与;

    [12] 炭基掺杂纳米金属氧化物制备及其光解典型全氟有机酸机制,51208364,国家自然科学基金青年科学基金项目,25万,参与。


  • 科研成果

    发表论文                                                                                     

    2022

    [1] S.J. Zhu, Z.W. Wang, C. Ye, J. Deng*, X.Y. Ma, Y.P. Xu, L. Wang, Z.H. Tang, H.J. Luo, X.Y. Li. Magnetic Co/Fe nanocomposites derived from ferric sludge as an efficient peroxymonosulfate catalyst for ciprofloxacin degradation. Chemical Engineering Journal, 2022, 432, 134180. (ZJUT100, 中科院TOP, IF=13.273)

    [2] T.X. Zhu, J. Deng*, S.J. Zhu, A.H. Cai, X. Ling, H.G. Guo, Q.F. Wang, X.Y. Li. Kinetic and mechanism insights into the degradation of venlafaxine by UV/chlorine process: A modelling study. Chemical Engineering Journal, 2022, 431, 133473. (ZJUT100, 中科院TOP, IF=13.273)

    [3] C. Ye, J. Deng*, L.Y. Huai, A.H. Cai, X. Ling, H.G. Guo, Q.F. Wang, X.Y. Li. Multifunctional capacity of CoMnFe-LDH/LDO activated peroxymonosulfate for p-arsanilic acid removal and inorganic arsenic immobilization: Performance and surface-bound radical mechanism. Science of the Total Environment, 2022, 806, 150379. (ZJUT100, 中科院TOP, IF=7.086)

    [4] C.C. Xu, J. Deng*, S.J. Zhu, X. Ling, S.T. Shen, H.G. Guo, Q.F. Wang, X.Y. Li. Enhanced performance of Fe(Ⅲ)/persulfate for the degradation of DEET: Working mechanism of ascorbic acid. Separation and Purification Technology, 2022, 285, 120239. (中科院TOP, IF=7.312)

    [5] A.H. Cai, J. Deng*, C. Ye, T.X. Zhu, X. Ling, S.W. Shen, H.G. Guo, X.Y. Li. Highly efficient removal of DEET by UV-LED irradiation in the presence of iron-containing coagulant. Chemosphere, 2022, 286, 131613. (中科院TOP, IF=7.086)

    [6] X.Y. Ma, L. Wang, H. Wang, J. Deng, Y.L. Song, Q.S. Li, X.Y. Li, A.M. Dietrich. Insights into metal-organic frameworks HKUST-1 adsorption performance for natural organic matter removal from aqueous solution. Journal of Hazardous Materials, 2022, 424, 126918. (中科院TOP, IF=10.588, 引用1)

    [7] F.L. Dong, Z. Pang, J.Q. Yu, J. Deng, X.Y. Li, X.Y. Ma, A.M. Dietrich, Y. Deng. Spatio-temporal variability of halogenated disinfection by-products in a large-scale two-source water distribution system with enhanced chlorination. Journal of Hazardous Materials, 2022, 423, 127113. (中科院TOP, IF=10.588)

    [8] J.B. Dan, Q.F. Wang, P.H. Rao, L. Dong, M. Zhang, X. Zhang, Z.D. He, N.Y. Gao, J. Deng. Bimetallic oxides with package structure for enhanced degradation of bisphenol a through peroxymonosulfate activation. Chemical Engineering Journal, 2022, 429, 132189. (ZJUT100, 中科院TOP, IF=13.273, 引用1)

    [9] C. Ye, X.Y. Ma, J. Deng, X.Y. Li, Q.S. Li, A.M. Dietrichd. Degradation of saccharin by UV/H2O2 and UV/PS processes: A comparative study. Chemosphere, 2022, 288, 132337. (中科院TOP, IF=7.086)

    [10] J.B. Dan, P.H. Rao, Q.F. Wang, L. Dong, W.H. Chu, M. Zhang, Z.D. He, N.Y. Gao, J. Deng, J.X. Chen. MgO-supported CuO with encapsulated structure for enhanced peroxymonosulfate activation to remove thiamphenicol. Separation and Purification Technology, 2022, 280, 119782. (中科院TOP, IF=7.312, 引用1)

    [11] J.B. Dan, P.H. Rao, Q.F. Wang, M. Zhang, Z.D. He, W.Q. Zhang, N.Y. Gao, J. Deng, J.X. Chen. Catalytic performance of wrapped CoO by MgO in oxidative degradation of chloroquine phosphate with peroxymonosulfate. Applied Surface Science, 2022, 573, 151430. (中科院TOP, IF=6.707)

    [12] Q.S. Li, C.R. Lai, J.W. Yu, J.Y. Luo, J. Deng, G.X. Li, W.Z. Chen, B.Q. Li, G.Y. Chen. Degradation of diclofenac sodium by the UV/chlorine process: Reaction mechanism, influencing factors and toxicity evaluation. Journal of Photochemistry and Photobiology A: Chemistry, 2022, 425, 113667. (中科院三区, IF=4.291)


    2021

    [1] S.N. Chen, J. Deng*, C. Ye, C.C. Xu, L.Y. Huai, X. Ling. J. Li, X.Y. Li. Degradation of p-arsanilic acid by pre-magnetized Fe0/persulfate system: Kinetics, mechanism, degradation pathways and DBPs formation during subsequent chlorination. Chemical Engineering Journal, 2021, 410, 128435. (ZJUT100, 中科院TOP, IF=13.273ESI高被引论文, 引用23)

    [2] M.Y. Xu, J. Deng*, A.H. Cai, C. Ye, X.Y. Ma, Q.S. Li, S.Q. Zhou, X.Y. Li. Synergistic effects of UVC and oxidants (PS vs. Chlorine) on carbamazepine attenuation: Mechanism, pathways, DBPs yield and toxicity assessment. Chemical Engineering Journal, 2021, 413, 127533. (ZJUT100, 中科院TOP, IF=13.273, 引用30)

    [3] J. Deng, C. Ye, A.H. Cai, L.Y. Huai, S.Q. Zhou. F.L. Dong, X.Y. Li, X.Y. Ma. S-doping α-Fe2O3 induced efficient electron-hole separation for enhanced persulfate activation toward carbamazepine oxidation: Experimental and DFT study. Chemical Engineering Journal, 2021, 420, 129863. (ZJUT100, 中科院TOP, IF=13.273, 引用12)

    [4] A.H. Cai, J. Deng*, T.X. Zhu, C. Ye, J. Li, S.Q. Zhou, Q.S. Li, X.Y. Li. Enhanced oxidation of carbamazepine by UV-LED/persulfate and UV-LED/H2O2 processes in the presence of trace copper ions. Chemical Engineering Journal, 2021, 404, 127119. (ZJUT100, 中科院TOP, IF=13.273, 引用9)

    [5] S.Y. Ruan, J. Deng*, A.H. Cai, S.N. Chen, Y.Q. Cheng, J. Li, Q.S. Li, X. Y. Li. Improving dewaterability of waste activated sludge by thermally-activated persulfate oxidation at mild temperature. Journal of Environmental Management, 2021, 281, 111899. (中科院TOP, IF=6.789, 引用14)

    [6] K.J. Zhang, J. Deng*, Y.J. Chen, C.C. Xu, C. Ye, X. Ling, X.Y. Li. Ascorbic acid enhanced ciprofloxacin degradation with nanoscale zero-valent copper activated molecular oxygen. Chemosphere, 2021, 278, 130354. (中科院TOP, IF=7.086, 引用2)

    [7] X.Y. Ma, C. Ye, J. Deng*, A.H. Cai, X. Ling, J. Li, X.Y. Li. Elucidating the role of Fe(IV) and radical species for CBZ degradation in FeS2/PS system. Separation and Purification Technology, 2021, 274, 118982. (中科院TOP, IF=7.312, 引用8)

    [8] X. Ling, J. Deng*, C. Ye, A.H. Cai, S.Y. Ruan, M.J. Chen, X.Y. Li. Fe(II)-activated sodium percarbonate for improving sludge dewaterability: Experimental and theoretical investigation combined with the evaluation of subsequent utilization. Science of the Total Environment, 2021, 799, 149382. (ZJUT100, 中科院TOP, IF=7.963, 引用1)

    [9] X.Y. Ma, L.J. Tang, J. Deng*, Z.H. Liu, X.Y. Li, P. Wang, Q.S. Li. Removal of saccharin by UV/persulfate process: Degradation kinetics, mechanism and DBPs formation. Journal of Photochemistry and Photobiology A: Chemistry, 2021, 420, 113482. (中科院三区, IF=4.291, 引用1)

    [10] P. Wang, L.J. Bu, Y.T. Wu, J. Deng, S.Q. Zhou. Mechanistic insights into paracetamol transformation in UV/NH2Cl process: Experimental and theoretical study. Water Research, 2021, 194, 116938. (ZJUT100, 中科院TOP, IF=11.236, 引用5)

    [11] Y.T. Wu, S.M. Zhu, J. Wang, L.J. Bu, J. Deng, S.Q. Zhou. Role of reactive nitrogen species in ranitidine degradation in UV/chloramine process: Transformation pathways and NDMA formation. Chemical Engineering Journal, 2021, 404, 126557. (ZJUT100, 中科院TOP, IF=13.273, 引用24)

    [12] X.Y. Ma, Z.H. Liu, Y.L. Yang, L.D. Zhu, J. Deng, S.J. Lu, X.Y. Li, A.M. Dietrichd. Aqueous degradation of artificial sweeteners saccharin and neotame by metal organic framework material. Science of the Total Environment, 2021, 761, 143181. (ZJUT100, 中科院TOP, IF=7.963, 引用3)

    [13] C.Q. Tan, X.C. Jian, L.H. Su, X. Lu, J. Huang, J. Deng, W.H. Chu. Kinetic removal of acetaminophen and phenacetin during LED-UV365 photolysis of persulfate system: Reactive oxygen species generation. Chemosphere, 2021, 269, 129337. (中科院TOP, IF= 7.086, 引用5)


    2020

    [1] M.Y. Xu, J. Deng*, A.H. Cai, X.Y. Ma, J. Li, Q.S. Li, X.Y. Li. Comparison of UVC and UVC/persulfate processes for tetracycline removal in water. Chemical Engineering Journal, 2020, 384, 123320. (ZJUT100, 中科院TOP, IF=13.273, ESI高被引论文, 引用61)

    [2] A.H. Cai, J. Deng*, M.Y. Xu, T.X. Zhu, S.Q. Zhou, J. Li, G.F. Wang, X.Y. Li. Degradation of tetracycline by UV activated monochloramine process: Kinetics, degradation pathway, DBPs formation and toxicity assessment. Chemical Engineering Journal, 2020, 395, 125090. (ZJUT100, 中科院TOP, IF=13.273, 引用41)

    [3] S.N. Chen, J. Deng*, C. Ye, C.C. Xu, L.Y. Huai, J. Li, X.Y. Li. Simultaneous removal of para-arsanilic acid and the released inorganic arsenic species by CuFe2O4 activated peroxymonosulfate process. Science of the Total Environment, 2020, 742, 140587. (ZJUT100, 中科院TOP, IF=7.963, 引用54)

    [4] T.X. Zhu, J. Deng*, M.Y. Xu, A.H. Cai, C. Ye, J. Li, X.Y. Li, Q.S. Li. DEET degradation in UV/monochloramine process: Kinetics, degradation pathway, toxicity and energy consumption analysis. Chemosphere, 2020, 255, 126962. (中科院TOP, IF= 7.086, 引用13)

    [5] J. Deng, C.G. Qiu, H.Y. Wang, N.Y. Gao, X.Y. Li. Occurrence and removal of dissolved metals in surface drinking water sources from yangtze river delta region, East China. Desalination and Water Treatment, 2020, 175, 205-218. (中科院四区, IF=1.254, 引用1)

    [6] 毕薇薇, 陈娅, 马晓雁, 邓靖*. 磁性有序介孔碳的制备及其对水中双酚A的吸附. 中国环境科学, 2020, 40(11), 4762-4769. (EI)

    [7] 毕薇薇, 阮书瑜, 陈吴傲啸, 梁方艺, 陈智文, 谢松儒, 唐晶, 邓靖*. 二价铁活化过氧化钙提高剩余活性污泥的脱水性能. 环境科学, 2020, 41(12), 5544-5551. (EI)

    [8] 马晓雁, 胡慧, 陆思嘉, 李青松, 薛乐飞, 李雪纯, 邓靖*. 浙江省H市水处理及供水系统4种人工甜味剂的分布特征. 环境科学, 2020, 41(4), 1629-1635. (EI)

    [9] C.Q. Tan, H.T. Wu, H. He, X. Lu, H.Y. Gao, J. Deng, W.H. Chu. Anti-inflammatory drugs degradation during LED-UV365 photolysis of free chlorine: roles of reactive oxidative species and formation of disinfection by-products. Water Research, 2020, 185, 116252. (ZJUT100, 中科院TOP, IF=11.236,引用15)

    [10] Q.F. Wang. Y.S. Shao, N.Y. Gao, S.S. Liu, L. Dong, P.H. Rao, W.H. Chu, B. Xu, N. An, J. Deng. Impact of zero valent iron/persulfate preoxidation on disinfection byproducts through chlorination of alachlor. Chemical Engineering Journal, 2020, 380, 122435. (ZJUT100, 中科院TOP, IF=13.273,引用23)

    [11] B.Q. Li, X.Y. Ma, J. Deng, Q.S. Li, W.Z. Chen, G.X. Li, G.Y. Chen, J.P. Wang. Comparison of acetaminophen degradation in UV-LED-based advance oxidation processes: Reaction kinetics, radicals contribution, degradation pathways and acute toxicity assessment. Science of the Total Environment, 2020, 723, 137993. (ZJUT100, 中科院TOP, IF=7.963, 引用22)

    [12] B.Q. Li, X.Y. Ma, Q.S. Li, W.Z. Chen, J. Deng, G.X. Li, G.Y. Chen, W.C. Liao. Factor affecting the role of radicals contribution at different wavelengths, degradation pathways and toxicity during UV-LED/chlorine process. Chemical Engineering Journal, 2020, 392, 124552. (ZJUT100, 中科院TOP, IF=13.273, 引用13)

    [13] C.Q. Tan, T.H. Xu, H. He, Q.L. Xu, C. Fang, E.D. Du, J. Deng, W.H. Chu. Bimetallic oxychloride as an efficient oxone activator: Radical and non-radical oxidation of non-steroidal anti-inflammatory drugs. Chemical Engineering Journal, 2020, 400, 125921. (ZJUT100, 中科院TOP, IF=13.273, 引用63)

    [14] K.J. Zhang, C.G. Qiu, A.H. Cai, J. Deng, X.Y. Li. Factors affecting the formation of DBPs by chlorine disinfection in water distribution system. Desalination and Water Treatment, 2020, 205, 91-102. (中科院四区, IF=1.254, 引用1)

    [15] Q.F. Wang, P. H. Rao, G.H. Li, L. Dong, X. Zhang, Y.S. Shao, N.Y. Gao. W.H. Chu, B. Xu, Na. An, J. Deng. Degradation of imidacloprid by UV-activated persulfate and peroxymonosulfate processes: Kinetics, impact of key factors and degradation pathway. Ecotoxicology and Environmental Safety, 2020, 187, 109779. (中科院TOP, IF=6.291, 引用33)


    2019

    [1] J. Deng, M.Y. Xu, S.F. Feng, C.G. Qiu, X.Y. Li, J. Li. Iron-doped ordered mesoporous Co3O4 activation of peroxymonosulfate for ciprofloxacin degradation: Performance, mechanism and degradation pathway. Science of the Total Environment, 2019, 658, 343-356. (ZJUT100, 中科院TOP, IF=7.963, ESI高被引论文, 引用83)

    [2] J. Deng, M.Y. Xu, Y.J. Chen, J. Li, C.G. Qiu, X.Y. Li, S.Q. Zhou. Highly-efficient removal of norfloxacin with nanoscale zero-valent copper activated persulfate at mild temperature. Chemical Engineering Journal, 2019, 366, 491-503. (ZJUT100, 中科院TOP, IF=13.273, 引用46)

    [3] L. Luo, Y.J. G, S.Y. Yuan, Y.H. Yu, Z. Shi, S.Q. Zhou, J. Deng*. Enhanced dewaterability of waste activated sludge by a combined use of permanganate and peroxymonosulfate. RSC Advances, 2019, 9(47), 27593-27601. (中科院三区, IF=3.361, 引用5)

    [4] J. Deng, H.D. Wu, S.J. Wang, Y.B. Liu, H.Y. Wang. Removal of sulfapyridine by ferrate(VI): Efficiency, influencing factors and oxidation pathway. Environmental Technology (United Kingdom), 2019, 40(12), 1585-1591. (中科院四区, IF=3.247, 引用6)

    [5] 倪永炯, 程永清, 徐梦苑, 邱春根, 马晓雁, 李军, 邓靖*. 纳米零价铜活化分子氧降解水中恩诺沙星. 环境科学, 2019, 40(1), 293-299.

    [6] C.Q. Tan, X.C. Jian, Y.J. Dong, X. Lu, X.Y. Liu, H.M. Xiang, X.X. Cui, J. Deng. H.Y. Gao. Activation of peroxymonosulfate by a novel EGCE@Fe3O4 nanocomposite: Free radical reactions and implication for the degradation of sulfadiazine. Chemical Engineering Journal, 2019, 359, 594-603. (ZJUT100, 中科院TOP, IF=13.273, 引用50)

    [7] P. Li, Z. Bao, G.H. Wang, P.F. Xu, X.G, Wang. Z.P. Liu, Y.D. Guo, J. Deng, W.M. Zhang. Ternary semiconductor metal oxide blends grafted Ag@AgCl hybrid as dimensionally stable anode active layer for photoelectrochemical oxidation of organic compounds: Design strategies and photoelectric synergistic mechanism. Journal of Hazardous Materials, 2019, 362, 336-347. (中科院TOP, IF=10.588, 引用4)

    [8] Y. Liu, H.G. Guo, Y.L. Zhang, X. Cheng, P. Zhou, J. Deng, J.Q. Wang, W. Li. Highly efficient removal of trimethoprim based on peroxymonosulfate activation by carbonized resin with Co doping: Performance, mechanism and degradation pathway. Chemical Engineering Journal, 2019, 356, 717-726. (ZJUT100, 中科院TOP, IF=13.273, 引用31)

    [9] F.L. Dong, Q.F. Lin, J. Deng, T.Q. Zhang, C. Li, X.D. Zai, Impact of UV irradiation on Chlorella sp. damage and disinfection byproducts formation during subsequent chlorination of algal organic matter. Science of the Total Environment, 2019, 671, 519–527. (ZJUT100, 中科院TOP, IF=7.963, 引用16)

    [10] S. Chen, J. Deng, Y. Deng, N.Y. Gao. Influencing factors and kinetic studies of imidacloprid degradation by ozonation. Environmental Technology (United Kingdom), 2019, 40(16), 2127–2134. (中科院四区, IF=3.247, 引用18)

    [11] L.P. Wang, G.P. Yang, D. Wang, C.Y. Lu, W.S. Guan, Y.L. Li, J. Deng, J. Crittenden. Fabrication of the flower-flake-like CuBi2O4/Bi2WO6 heterostructure as efficient visible-light driven photocatalysts: Performance, kinetics and mechanism insight. Applied Surface Science, 2019, 495, 143521. (中科院TOP, IF=6.707, 引用51)


    2018

    [1] S.Q. Zhou, Y.H. Yu, J.L. Sun, S.M. Zhu, J. Deng*. Oxidation of microcystin-LR by copper (II) coupled with ascorbic acid: Kinetic modeling towards generation of H2O2. Chemical Engineering Journal, 2018, 333, 443-450. (ZJUT100, 中科院TOP, IF=13.273, 引用20)

    [2] X.Y. Ma, Y.Q. Cheng, Y.J. Ge, H.D. Wu, Q.S. Li, N.Y. Gao, J. Deng*. Ultrasound-enhanced nanosized zero-valent copper activation of hydrogen peroxide for the degradation of norfloxacin. Ultrasonics Sonochemistry, 2018, 40, 763-772. (中科院TOP, IF=7.491, 引用81)

    [3] J. Deng*, M.Y. Xu, C.G. Qiu, Y. Chen, X.Y. Ma, N.Y. Gao, X.Y. Li. Magnetic MnFe2O4 activated peroxymonosulfate processes for degradation of bisphenol A: Performance, mechanism and application feasibility. Applied Surface Science, 2018, 459, 138-147. (中科院TOP, IF=6.707, 引用68)

    [4] J. Deng, C. Ya, Y.J. Ge, Y.Q. Cheng, Y.J. Chen, M.Y. Xu, H.Y. Wang. Activation of peroxymonosulfate by metal (Fe, Mn, Cu and Ni) doping ordered mesoporous Co3O4 for the degradation of enrofloxacin. RSC Advances, 2018, 8, 2338-2349. (中科院三区, IF=3.361, 引用34)

    [5] S. Chen, J. Deng, L. Li, N.Y. Gao. Evaluation of disinfection by-product formation during chlor(am)ination from algal organic matter after UV irradiation. Environmental Science and Pollution Research, 2018, 25(6), 5994-6002. (中科院三区, IF=4.223, 引用13)

    [6] Q.S. Li, J.W. Yu, W.Z. Chen, X.Y. Ma, G.X. Li, G.Y. Chen, J. Deng. Degradation of triclosan by chlorine dioxide: Reaction mechanism,2,4-dichlorophenol accumulation and toxicity evaluation. Chemosphere, 2018, 207, 449-456. (中科院TOP, IF=7.086, 引用20)


    2017

    [1] J. Deng, S.F. Feng, K.F. Zhang, J. Li, H.Y. Wang, T.Q. Zhang, X.Y. Ma. Heterogeneous activation of peroxymonosulfate using ordered mesoporous Co3O4 for the degradation of chloramphenicol at neutral pH. Chemical Engineering Journal, 2017, 308, 505-515. (ZJUT100, 中科院TOP, IF=13.273, ESI高被引论文, 引用205)

    [2] J. Deng, Y.J. Ge, C.Q. Tan, H.Y. Wang, Q.S. Li, S.Q. Zhou, K.J. Zhang. Degradation of ciprofloxacin using α-MnO2 activated peroxymonosulfate process: Effect of water constituents, degradation intermediates and toxicity evaluation. Chemical Engineering Journal, 2017, 330, 1390-1400. (ZJUT100, 中科院TOP, IF=13.273, ESI高被引论文, 引用173)

    [3] J. Deng*, Y.Q. Cheng, Y.A. Lu, J.C. Crittenden, S.Q. Zhou, N.Y. Gao, J. Li. Mesoporous manganese Cobaltite nanocages as effective and reusable heterogeneous peroxymonosulfate activators for Carbamazepine degradation. Chemical Engineering Journal, 2017, 330, 505-517. (ZJUT100, 中科院TOP, IF=13.273, 引用99)

    [4] J. Deng, Y.J. Chen, Y.A. Lu, X.Y. Ma, S.F. Feng, N.Y. Gao, J. Li. Synthesis of magnetic CoFe2O4/ordered mesoporous carbon nanocomposites and application in Fenton-like oxidation of rhodamine B. Environmental Science and Pollution Research, 2017, 24(16), 14396-14408. (中科院三区, IF=4.223, 引用47)

    [5] J. Deng, Y.J. Ge, X.Y. Ma, S.F. Feng, Y.J. Chen, Y.Q. Cheng, H.Y. Wang. Manganese doping ordered mesoporous Co3O4 as heterogeneous peroxymonosulfate activator for the degradation of bisphenol A. Desalination and Water Treatment, 2017, 84, 142-152. (中科院四区, IF=1.254)

    [6] 葛勇建, 蔡显威, 林翰, 徐梦苑, 沈一挺, 周丹, 钱梦洁, 邓靖*. 碱活化过一硫酸盐降解水中环丙沙星. 环境科学, 2017, 38(12), 5116-5123. (EI)

    [7] C.Q. Tan, N.Y. Gao, D.F. Fu, J. Deng, L. Deng. Efficient degradation of paracetamol with nanoscaled magnetic CoFe2O4 and MnFe2O4 as a heterogeneous catalyst of peroxymonosulfate. Separation and Purification Technology, 2017, 175, 47-57. (IF=7.312, ESI高被引论文,引用196)

    [8] S.M. Zhu, B.Z. Dong, Y.H. Yu, L.J. Bu, J. Deng, S.Q. Zhou. Heterogeneous catalysis of ozone using ordered mesoporous Fe3O4 for degradation of atrazine. Chemical Engineering Journal, 2017, 328, 527-535. (ZJUT100, 中科院TOP, IF=13.273,引用59)


    2016

    [1] J. Deng, S.F. Feng, X.Y. Ma, C.Q. Tan, H.Y. Wang, S.Q. Zhou, T.Q. Zhang, J. Li. Heterogeneous degradation of Orange II with peroxymonosulfate activated by ordered mesoporous MnFe2O4. Separation and Purification Technology, 2016, 167, 181-189. (中科院TOP, IF=7.312, 引用101)

    [2] 冯善方,邓思萍,杜嘉雯,马晓雁,卢遇安,高乃云,邓靖*. 三维有序介孔Co3O4非均相活化单过硫酸氢钾降解罗丹明B. 环境科学, 2016, 37(11), 4247-4254. (EI)

    [3] 邓靖, 卢遇安, 肖子捷, 张土乔, 李军, 倪永炯, 马晓雁. 碳系材料对水中三氯生和萘普生的吸附性能. 中南大学学报(自然科学版), 2016, 47(04), 1427-1435. (EI)

    [4] X.Y. Ma, J. Deng, J. Feng, N. Shanaiah, E. Smiley, A.M. Dietrich. Identification and characterization of phenylacetonitrile as a nitrogenous disinfection byproduct derived from chlorination of phenylalanine in drinking water. Water Research, 2016, 102, 202-210. (ZJUT100, 中科院TOP, IF=11.236, 引用19)

    [5] Q.F. Wang, Y.S. Shao, N.Y. Gao, W.H. Chu, J. Deng, X. Shen, X. Lu, Y.P. Zhu, X.Y. Wei. Degradation of alachlor with zero-valent iron activating persulfate oxidation. Journal of the Taiwan Institute of Chemical Engineers, 2016, 63, 379-385. (中科院二区, IF=5.876, 引用56)

    [6] X.Y. Wei, N.Y. Gao, C.J. Li, J. Deng, Y.P. Zhu, Q.F. Wang. Adsorption of bentazon on two kinds of granular activated carbons: equilibrium, kinetic and thermodynamic studies. Desalination and Water Treatment, 2016, 57(59), 28762-28775. (中科院四区, IF=1.254, 引用4)

    [7]宋亚丽, 邓靖, 冯娇, 马晓雁, 李青松. 色谱-质谱联用法识别饮用水中新型含氮消毒副产物氯代亚胺. 质谱学报, 2016, 37(2), 156-162. (EI)


    2015

    [1] J. Deng, K. Tang, S.J. Zhu, X.Y. Ma, K.J. Zhang, Y.L. Song, X.Y. Li, Q.S. Li, Z.H. Liu, K.J. Zhou. Competitive Degradation of Steroid Estrogens by Potassium Permanganate Combined with Ultrasound. International Journal of Environmental Research and Public Health. 2015, 12(12), 15434-48. (中科院三区, IF=2.468, 引用6)

    [2] 邓靖, 冯善方, 马晓雁, 邵益生, 高乃云, 李军. 热活化过硫酸盐降解水中卡马西平. 化工学报, 2015, 66(01), 410-418. (EI)

    [3] 邓靖, 卢遇安, 马晓雁, 倪永炯, 高乃云, 李军. Fe3O4/GO复合纳米组分催化过硫酸钠降解卡马西平. 中国矿业大学学报, 2015, 44(06), 1126-1133. (EI)

    [4] C.Q. Tan, N.Y. Gao, Y. Deng, L. Li, J. Deng, S.Q. Zhou. Kinetic oxidation of antipyrine in heat-activated persulfate. Desalination and Water Treatment, 2015, 53(1), 263-271. (中科院四区, IF=1.254, 引用23)

    [5] X.Y. Ma, C. Zhang, J. Deng, Y.L. Song, Q.S. Li, Y.P. Guo, C. Li. Simultaneous Degradation of Estrone, 17β-Estradiol and 17α-Ethinyl Estradiol in an Aqueous UV/H2O2 System. International Journal of Environmental Research and Public Health. 2015, 12(10), 12016-29. (中科院三区, IF=2.468, 引用22)

    [6] 王江飞, 周柯锦, 汪小泉, 邓靖, 吴柳芳, 马晓雁, 钟晓, 蒲凤莲, 施丽莉, 陈江, 蒋彩萍. 杭嘉湖地区大气氮、磷沉降特征研究.中国环境科学, 2015, 35(09), 2754-2763. (EI)


    2012-2014

    [1] J. Deng, Y.S. Shao, N.Y. Gao, C.Q. Tan, S.Q. Zhou, X.H. Hu. CoFe2O4 magnetic nanoparticles as a highly active heterogeneous catalyst of oxone for the degradation of diclofenac in water. Journal of Hazardous Materials, 2013, 262, 836-844. (中科院TOP, IF=10.588, ESI高被引论文, 引用234)

    [2] J. Deng, Y.S. Shao, N.Y. Gao, Y. Deng, S.Q. Zhou, X.H. Hu. Thermally activated persulfate (TAP) oxidation of antiepileptic drug carbamazepine in water. Chemical Engineering Journal, 2013, 228, 765-771. (ZJUT100, 中科院TOP, IF=13.273, ESI高被引论文, 引用196)

    [3] J. Deng, Y.S. Shao, N.Y. Gao, S.J. Xia, C.Q. Tan, S.Q. Zhou, X.H. Hu. Degradation of the antiepileptic drug carbamazepine upon different UV-based advanced oxidation processes in water. Chemical Engineering Journal, 2013, 222, 150-158. (ZJUT100, 中科院TOP, IF=13.273, ESI高被引论文, 引用248)

    [4] J. Deng, Y.S. Shao, N.Y. Gao, Y. Deng, C.Q. Tan, S.Q. Zhou, X.H. Hu. Multiwalled carbon nanotubes as adsorbents for removal of herbicide diuron from aqueous solution. Chemical Engineering Journal, 2012, 193-194, 339-347. (ZJUT100, 中科院TOP, IF=13.273, 引用74)

    [5] J. Deng, Y.S. Shao, N.Y. Gao, Y. Deng, C.Q. Tan, S.Q. Zhou. Zero-valent iron/persulfate (Fe0/PS) oxidation acetaminophen in water. International Journal of Environmental Science and Technology, 2013, 11(4), 881-890. (中科院四区, IF=2.86, 引用88)

    [6] J. Deng, Y.S. Shao, N.Y. Gao, S.Q. Zhou, X.H. Hu. Adsorption Characteristics of β-Ionone in Water on Granular Activated Carbon. Clean - Soil, Air, Water, 2012, 40(12), 1341-1348. (中科院四区, IF=1.77, 引用5)

    [7] 邓靖, 邵益生, 高乃云, 周石庆, 谈超群, 胡栩豪. UV/H2O2工艺对水中典型药物卡马西平的光化学降解研究. 中南大学学报(自然科学版), 2013, 44(09), 3933-3939. (EI)

    [8] C.Q. Tan, N.Y. Gao, Y. Deng, N. An, J. Deng. Heat-activated persulfate oxidation of diuron in water. Chemical Engineering Journal, 2012, 203, 294-300. (ZJUT100, 中科院TOP, IF=13.273, ESI高被引论文, 引用225)

    [9] C.Q. Tan, N.Y. Gao, Y. Deng, Y.J. Zhang, M.H. Sui, J. Deng. S.Q. Zhou, Degradation of antipyrine by UV, UV/H2O2 and UV/PS. Journal of Hazardous Materials, 2013, 260, 1008-1016. (中科院TOP, IF=10.588, ESI高被引论文, 引用204)

    [10] C.Q. Tan, N.Y. Gao, Y. Deng, J. Deng, S.Q. Zhou, J. Li, X.Y. Xin. Radical induced degradation of acetaminophen with Fe3O4 magnetic nanoparticles as heterogeneous activator of peroxymonosulfate. Journal of Hazardous Materials, 2014, 276, 452-60. (中科院TOP, IF=10.588, ESI高被引论文, 引用334)

    [11] S.Q. Zhou, Y.S. Shao, N.Y. Gao, Y. Deng, L. Li, J. Deng, C.Q. Tan. Characterization of algal organic matters of Microcystis aeruginosa: Biodegradability, DBP formation and membrane fouling potential. Water Research, 2014, 52, 199-207. (ZJUT100, 中科院TOP, IF=11.236, 引用109)

    [12] S.Q. Zhou, Y.S. Shao, N.Y. Gao, Y. Deng, J.L. Qiao, H.S. Ou, J. Deng. Effects of different algaecides on the photosynthetic capacity, cell integrity and microcystin-LR release of Microcystis aeruginosa. Science of the Total Environment, 2013, 463-464, 111-119. (ZJUT100, 中科院TOP, IF=7.963,引用108)

    [13] S.Q. Zhou, Y.S. Shao, N.Y. Gao, L. Li, J. Deng, C.Q. Tan, M.Q. Zhu. Influence of hydrophobic/hydrophilic fractions of extracellular organic matters of Microcystis aeruginosa on ultrafiltration membrane fouling. Science of the Total Environment, 2014, 470-471, 201-7. (ZJUT100, 中科院TOP, IF=7.963, 引用42)

    [14] S.Q. Zhou, Y.S. Shao, N.Y. Gao, S.M. Zhu, L. Li, J. Deng, M.Q. Zhu. Removal of Microcystis aeruginosa by potassium ferrate (VI): Impacts on cells integrity, intracellular organic matter release and disinfection by-products formation. Chemical Engineering Journal, 2014, 251, 304-309. (ZJUT100, 中科院TOP, IF=13.273, 引用78)

    [15] S.Q. Zhou, Y.S. Shao, N.Y. Gao, L. Li, J. Deng, M.Q. Zhu, S.M. Zhu. Effect of chlorine dioxide on cyanobacterial cell integrity, toxin degradation and disinfection by-product formation. Science of the Total Environment, 2014, 482-483, 208-13. (ZJUT100, 中科院TOP, IF=7.963, 引用56)

    [16] S.Q. Zhou, Y.S. Shao, N.Y. Gao, S.M. Zhu, Y. Ma, J. Deng. Chlorination and chloramination of tetracycline antibiotics: disinfection by-products formation and influential factors. Ecotoxicology and Environmental Safety, 2014, 107, 30-5. (IF=6.291, 引用17)

    [17] S.Q. Zhou, Y.S. Shao, N.Y. Gao, J. Deng, C.Q. Tan. Equilibrium, Kinetic, and Thermodynamic Studies on the Adsorption of Triclosan onto Multi-Walled Carbon Nanotubes. Clean - Soil, Air, Water, 2013, 41(6), 539-547. (IF=1.77, 引用61)

    [18] 高乃云, 胡栩豪, 邓靖, 陈义春. 紫外激活过硫酸盐降解水中卡马西平研究. 华中科技大学学报(自然科学版), 2013, 41(12), 117-122. (EI)

    [19] 胡栩豪, 高乃云, 归谈纯, 邓靖. UV/H2O2工艺降解水中扑热息痛. 中南大学学报(自然科学版), 2014, 45(08), 2905-2912. (EI)

    [20] 唐凯, 贾佳, 邓靖, 宋亚丽, 李青松. 超声及高锰酸钾-超声协同降解水中17β-雌二醇的影响因素分析. 浙江大学学报(工学版), 2014, 48(06), 1132-1140. (EI)


    国家发明专利          

    [1] 邓靖, 冯善方, 马晓雁, 倪永炯, 卢遇安, 程永清. 基于三维磁性有序介孔铁酸钴活化过硫酸盐处理染料废水的方法. 中国, ZL201510928060.4. (已转让)

    [2] 邓靖, 卢遇安, 李军, 倪永炯, 冯善方, 葛勇建. 利用CoFe2O4/OMC复合材料活化过硫酸盐处理染料废水的方法. 中国, ZL201510928056.8. (已转让)

    [3] 邓靖, 倪永炯, 马晓雁, 冯善方, 卢遇安, 葛勇建, 程永清. 磁性有序介孔铁酸镍催化臭氧化高效去除水中抗肿瘤药的方法. 中国, ZL201610126608.8.

    [4] 邓靖, 冯善方, 马晓雁, 倪永炯, 卢遇安, 葛勇建. 有序介孔Co3O4激活单过硫酸盐处理抗生素类废水的方法. 中国, ZL201610370925.4.

    [5] 邓靖, 卢遇安, 李军, 倪永炯, 冯善方, 陈一婧. 一种利用MnxCo3-xO4纳米笼活化单过硫酸盐处理水中抗癫痫药物的方法. 中国, ZL201610683814.9.

    [6] 邓靖, 冯善方, 李军, 马晓雁, 卢遇安, 陈一婧. 一种基于铁掺杂有序介孔四氧化三钴激活单过硫酸盐降解水中抗菌药物的方法. 中国, ZL201610685175.X.

    [7] 邓靖, 陈胜男, 周石庆, 蔡安洪, 阮书瑜, 陈吴傲啸. 利用有序介孔层状双金属氢氧化物控制水中有机胂污染的方法. 中国. ZL201910559137.3.

    [8] 邓靖, 陈胜男, 周石庆, 蔡安洪, 阮书瑜, 陈吴傲啸. 六方铁氧体活化过氧单硫酸盐降解水中抗癫痫药物的方法. 中国. ZL201910524884.3.


  • 社会服务

    [1] 磁性介孔催化材料在垃圾渗滤液处理中的应用,浙江工业大学膜分离与水处理协同创新中心湖州研究院,30万,主持;

    [2] 京杭大运河(浙江段)航道生态测量技术研究,浙江浙工大检测技术有限公司,11.5万,主持;

    [3] 长湖申线航道扩建工程航道竣工水下疏浚土方测量,长湖申线湖州段航道扩建工程指挥部,8.222万,主持;

    [4] 临安区於潜镇农村生活污水治理设施提升改造工程,浙江工业大学工程设计集团有限公司,8万,主持;

    [5] 杭平申线浙江段航道改造工程(五星桥~长生桥)WCHD-01,02合同段土方水深断面测量,嘉兴市港航建设开发有限责任公司,4.8412万,主持;

    [6] 绍兴上虞河道水体生态修复工程设计项目,绍兴市上虞区港航管理局,4.8万,主持。


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更新时间:2021.12.21
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