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ؑcɳ83̖ؑcWB^нOcȟWԺ |
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1ˮA̎g2ˮܼ̎{ײаl |
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2013.05- ˮЭIWAԱ 2014.09- ˮЭίԱԱ 2016.11- йľѧˮҵֻˮϵͳܻо |
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3.W |
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1W 1995.09-1999.07ѧ ѧѧʿ 2002.09-2004.07ҵѧ ѧ˶ʿ 2004.09-2007.07ҵѧ ѧʿ 2 2017.07- ؑcWнOcȟWԺ ڡ 2015.09-2017.06žڹѧԺϵ ڡѧƴͷ 2014.09-2015.08žڹѧԺϵ ڡѧƴͷ 2013.06-2014.07ҵѧѧԺ ڡϵΡ 2010.01-2013.06ҵѧѧԺ ڡ 2008.10-2009.12ҵѧѧԺ 2001.07-2008.10ҵѧѧԺ ̡ʦ 1999.07-2001.06ҵѧѧԺ Աѧ |
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4.ֵĿƌWоĿ |
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1 ҿƼشר“ˮϵͳ빤Ƽо”(2012ZX07408001214Ԫ)ˣ 2 ҿƼشר“ѧԤԤǰо”2008ZX07 42100370Ԫˣ 3 Ȼѧ“ˮԤտۻо”(5090806130Ԫ)Ŀˣ 4 ڲĿBY***200ԪĿˣ 5 ڲĿBY***353ԪĿˣ 6 пѧίԱǰӦûĿ“ǰȻDZо”(cstc2015jcyjA200242.5Ԫ)Ŀ 7 Ϻչɷ˾Ŀ“ˮ/ᵪƼо”(JSB2013-04(06)27.5Ԫ)Ŀ |
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Appl. Catal. B- Environ.J. Mater. Chem.Bioresource Technol.Chem. Eng. J.J. Hazard. Mater.йˮˮרҵ֪ڿ70ƪSCI40ƪһͨѶ߹20ƪȨҷר10 ִоՓģ 1Sun, T.,Zhao, Z.*, Liang, Z., Liu, J., Shi, W., & Cui, F. (2017). Efficient degradation of p-arsanilic acid with arsenic adsorption by magnetic CuO-Fe 3 O 4 nanoparticles under visible light irradiation.Chemical Engineering Journal,2018,334,1527-1536.(SCI,пԺһ^[Top]IF=6.216) 2Zhao, J., Nan, J.,Zhao, Z.*, Li, N., Liu, J., & Cui, F. Energy-efficient fabrication of a novel multivalence Mn3O4-MnO2, heterojunction for dye degradation under visible light irradiation.Applied Catalysis B: Environmental, 2017, 202, 509-517.(SCI,пԺһ^[Top]IF=9.446) 3Zhao, J., Liu, J., Li, N., Wang, W., Nan, J., &Zhao, Z.*, Cui F. Highly efficient removal of bivalent heavy metals from aqueous systems by magnetic porous Fe3O4-MnO2: adsorption behavior and process study.Chemical Engineering Journal, 2016, 304, 737-746.(SCI,пԺһ^[Top]IF=6.216) 4Liu, J., Zhou, J., Ding, Z.,Zhao, Z.*, Xu, X., & Fang, Z. Ultrasound irritation enhanced heterogeneous activation of peroxymonosulfate with Fe3O4for degradation of azo dye.Ultrasonics Sonochemistry, 2017, 34, 953-959.(SCI,пԺ^[Top]IF=4.218) 5Sun, T.,Zhao, Z.*, Liang, Z., Liu, J., Shi, W., & Cui, F. Efficient As(III) removal by magnetic CuO-Fe3O4nanoparticles through photo-oxidation and adsorption under light irradiation.Journal of Colloid and Interface Science, 2017, 495, 168-177.(SCI,пԺ, IF=4.233) 6Sun T., Zhao Z.*,Liang Z., Liu J., Shi W., Cui F.. Efficient removal of arsenite through photocatalytic oxidation and adsorption by ZrO2-Fe3O4 magnetic nanoparticles.Applied Surface Science, 2017, 416: 656-665. (SCI,пԺ[Top], IF=3.387) 7Liang, Z.,Zhao, Z.*, Sun, T., Shi, W., & Cui, F. Enhanced adsorption of the cationic dyes in the spherical CuO/meso-silica nano composite and impact of solution chemistry.Journal of Colloid and Interface Science, 2017, 485, 192-200.(SCI,пԺ, IF=4.233) 8Liang Z., Shi W.,Zhao Z.*, Sun T., Cui F.. The retained templates as“helpers”for spherical meso-silica in adsorption of heavy metals and impacts of solution chemistry.Journal of Colloid and Interface Science, 2017, 496, 382-390.(SCI,пԺ, IF=4.233) 9Liang, Z., Shi, W.,Zhao, Z.*, Sun, T., & Cui, F. Enhanced removal and adsorption characters of aniline by the inorganically modified mesoporous silica nano-spheres.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 513, 250-258.(SCI,пԺ, IF=2.714) 10Liu, J.,Zhao, Z.*, Ding, Z., Fang, Z., & Cui, F. Degradation of 4-chlorophenol in a Fenton-like system using Au–Fe3O4 magnetic nanocomposites as the heterogeneous catalyst at near neutral conditions.RSC Advances, 2016, 6(58), 53080-53088.( SCI,пԺ^IF=3.108) 11Liang, Z.,Zhao, Z.*, Sun, T., Shi, W., & Cui, F. Adsorption of quinolone antibiotics in spherical mesoporous silica: Effects of the retained template and its alkyl chain length.Journal of Hazardous Materials, 2016, 305, 8-14.( SCI,пԺһ^[Top]IF=6.065) 12Shi, J., Fang, Z.,Zhao, Z.*, Sun, T., & Liang, Z. Comparative study on Pb (II), Cu (II), and Co (II) ions adsorption from aqueous solutions by arborvitae leaves.Desalination and Water Treatment, 2016, 57(10), 4732-4739. ( SCI,пԺą^IF=1.631) 13Shi, J.,Zhao, Z.*, Liang, Z., & Sun, T. Adsorption characteristics of Pb (II) from aqueous solutions onto a natural biosorbent, fallen arborvitae leaves.Water Science and Technology, 2016, 73(10), 2422-2429.( SCI,пԺą^IF=1.197) 14Liu, J.,Zhao, Z.*, Shao, P., & Cui, F. Activation of peroxymonosulfate with magnetic Fe3O4-MnO2 core-shell nanocomposites for 4-chlorophenol degradation.Chemical Engineering Journal, 2015, 262, 854-861.( SCI,пԺһ^[Top]IF=6.216) 15Feng, H., Cui, F. Y., Xie, Y. Z., Wei, Y. &Zhao, Z. W*. Improved efficiency of reactor startup in biological aerated filter by poly(lactic acid).Water Science and Technology-Water Supply, 2015, 15(2), 348-355.( SCI,пԺą^IF=1.197) 16Liu, J., Wang, W., Shen, T.,Zhao, Z.*, Feng, H., & Cui, F. One-step synthesis of noble metal/oxide nanocomposites with tunable size of noble metal particles and their size-dependent catalytic activity.RSC Advances, 2014, 4(58), 30624-30629.( SCI,пԺ^IF=3.108) 17Han, M.,Zhao, Z. W.*, Gao, W., & Cui, F. Y. Study on the factors affecting simultaneous removal of ammonia and manganese by pilot-scale biological aerated filter (BAF) for drinking water pre-treatment.Bioresource Technology, 2013. 145, 17-24.( SCI,пԺһ^[Top]IF=5.651) 18 Zhao, Z., Wang, S., Shi, W., & Li, J. Recovery of Stored Aerobic Granular Sludge and Its Contaminants Removal Efficiency under Different Operation Conditions.BioMed research international, 2013. 1-8.( SCI,пԺ^IF=2.459) 19Han, M.,Zhao, Z. W.*, Gao, W., Liu, J., & Cui, F. Y.* Evaluation of a novel double-layer biological aerated filter (BAF) for drinking water bio-pretreatment: comparison with a single-layer BAF.Desalination and Water Treatment, 2013, 51(7-9), 1881-1886.( SCI,пԺą^IF=1.631) 20 Zhao, Z.*, Liu, J., Cui, F.*, Feng, H., & Zhang, L. One pot synthesis of tunable Fe3O4-MnO2 core-shell nanoplates and their applications for water purification.Journal of Materials Chemistry, 2012, 22(18), 9052-9057.( SCI,пԺһ^IF=6.171) 21Liu, J.,Zhao, Z.*, Feng, H., & Cui, F. One-pot synthesis of Ag-Fe3O4 nanocomposites in the absence of additional reductant and its potent antibacterial properties.Journal of Materials Chemistry, 2012, 22(28), 13891-13894.( SCI,пԺһ^IF=6.171) 22Han, M.,Zhao, Z. W.*, Cui, F. Y., Gao, W., Liu, J., & Zeng, Z. Q. Pretreatment of contaminated raw water by a novel double-layer biological aerated filter for drinking water treatment.Desalination and Water Treatment, 2012, 37(1-3), 308-314.( SCI,пԺą^IF=1.631) 23Lin, M. L.,Zhao, Z. W.*, Cui, F. Y., & Xia, S. Modeling of equilibrium and kinetics of chlorobenzene (CB) adsorption onto powdered activated carbon (PAC) for drinking water treatment.Desalination and Water Treatment, 2012, 44(1-3), 245-254.( SCI,пԺą^IF=1.631) 24Lin, M. L.,Zhao, Z. W.*, Cui, F. Y., Wang, Y., & Xia, S. Effects of initial chlorobenzene concentration, air flowrate and temperature on mass transfer of chlorobenzene by air stripping.Desalination and Water Treatment, 2012, 40(1-3), 215-223.( SCI,пԺą^IF=1.631) 25Zhao, Z. W. *, & Cui, F. Y. . Multivariate statistical analysis for the surface water quality of the Luan River, China.Journal of Zhejiang University SCIENCE A, 2009, 10(1), 142-148.( SCI,пԺą^IF=1.214) ִԌ 1 һѹ䴦ˮԴͻӷȾķZL200910072857.3 2 ĩ̿ȥԭˮȱķZL200910306573.6 3MnO2/Fe3O4}Ƃ䷽ȥˮ飨IIIķZL201110091212.1 4MnO2/Fe3O4}ȥˮ飨ķZL201110091180.5 5MnO2/Fe3O4}Ƃ䷽ZL201110082321.7 |
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