代表性论文
[1] M Asif, C Li, B Ren, T Maqbool, X Zhang, Z Zhang*, 2020, Elucidating the impacts of intermittent in-situ ozonation in a ceramic membrane bioreactor: Micropollutant removal, fouling mechanisms and functional genes, Journal of Hazardous Materials, accept (JCR Q1)
[2] M Asif, B Ren, C Li, T Maqbool, X Zhang, Z Zhang*, 2020, Evaluating the impacts of a high concentration of powdered activated carbon in a ceramic membrane bioreactor: Mixed liquor properties, fouling models and mechanisms, Journal of Membrane Science, 118561 (JCR Q1)
[3] M Asif, B Ren, C Li, T Maqbool, X Zhang, Z Zhang*, 2020, Powdered activated carbon – membrane bioreactor (PAC-MBR): Impacts of high PAC concentration on micropollutant removal and microbial communities, Science of The Total Environment, 141090(JCR Q1)
[4] X Zhao, Y You, S Huang, Y Wu, Y Ma, G Zhang, Z Zhang*, 2020, Z-scheme photocatalytic production of hydrogen peroxide over Bi4O5Br2/g-C3N4heterostructure under visible light, Applied Catalysis B: Environmental , 119251 (JCR Q1)
[5] M Asif, T Maqbool, Z Zhang*, 2020, Electrochemical membrane bioreactors: state-of-the-art and future prospects, Science of The Total Environment, 140233 (JCR Q1)
[6] T Maqbool, J Zhang, Y Qin, Q Ly, M Asif, X Zhang, Z Zhang*, 2020, Seasonal occurrence of N-nitrosamines and their association with dissolved organic matter in full-scale drinking water systems: Determination by LC-MS and EEM-PARAFAC, Water Research, 116096 (JCR Q1)
[7] T Maqbool, Q Ly, Y Qin, C Li, M Asif, Z Zhang*, 2020, Exploring the relative changes in dissolved organic matter for assessing the water quality of full-scale drinking water treatment plants using a fluorescence ratio approach, Water Research, 116125 (JCR Q1)
[8] T Maqbool, Q Ly, M Asif, H Ng, Z Zhang*, 2020, Fate and role of fluorescence moieties in extracellular polymeric substances during biological wastewater treatment:A review, Science of The Total Environment, 137291 (JCR Q1)
[9] S Tian, X Zhang, Z Zhang*, 2020, Capacitive deionization with MoS2/g-C3N4electrodes, Desalination, 479, 114348 (JCR Q1)
[10] G Zhang, Z Zhang, D Xia, Y Qu, W Wang, 2020, Solar driven self-sustainable photoelectrochemical bacteria inactivation in scale-up reactor utilizing large-scale fabricable Ti/MoS2/MoOx photoanode, Journal of Hazardous Materials, 122292 (JCR Q1)
[11] S Tian, J Wu, X Zhang, KK Ostrikov, Z Zhang*, 2020, Capacitive deionization with nitrogen-doped highly ordered mesoporous carbon electrodes, Chemical Engineering Journal 380, 122514 (JCR Q1)
[12] K Zhang, Z Zhang, H Wang, X Wang, X Zhang, YF Xie, 2020, Synergistic effects of combining ozonation, ceramic membrane filtration and biologically active carbon filtration for wastewater reclamation, Journal of Hazardous Materials 382, 121091 (JCR Q1)
[13] X Zou, J Zhang, X Zhao, Z Zhang*, 2020, MoS2/RGO composites for photocatalytic degradation of ranitidine and elimination of NDMA formation potential under visible light, Chemical Engineering Journal, 123084 (JCR Q1)
[14] X Zhao, G Zhang, Z Zhang*, 2019, TiO2-based catalysts for photocatalytic reduction of aqueous oxyanions: state-of-the-art and future prospects, Environment International, 136, 105453 (JCR Q1)
[15] J Liu, K He, J Zhang, C Li, X Zhang, Z Zhang*, 2019, Coupling ferrate pretreatment and in-situ ozonation/ceramic membrane filtration for wastewater reclamation: Water quality and membrane fouling, Journal of Membrane Science 590, 117310 (JCR Q1)
[16] J Kim, A Jain, K Zuo, R Verduzco, S Walker, M Elimelech, Z Zhang, X Zhang, Q Li, 2019, Removal of calcium ions from water by selective electrosorption using target-ion specific nanocomposite electrode, Water Research 160, 445-453 (JCR Q1)
[17] S Tang, L Zhang, Y Peng, J Liu, X Zhang*, Z Zhang*, 2019, Fenton cleaning strategy for ceramic membrane fouling in wastewater treatment, Journal of Environmental Sciences 85, 189–199 (JCR Q2)
[18] J Liu, K He, S Tang, T Wang, Z Zhang*, 2019, A comparative study of ferrous, ferric and ferrate pretreatment for ceramic membrane fouling alleviation in reclaimed water treatment, Separation and Purification Technology 217, 118-127 (JCR Q1)
[19] B Ren, C Li, X Zhang, Z Zhang*, 2019, Fe (II)-dosed ceramic membrane bioreactor for wastewater treatment: Nutrient removal, microbial community and membrane fouling analysis, Science of The Total Environment 664, 116-126 (JCR Q1)
[20] S Tian, Z Zhang*, 2019, Photo-electrochemical oxidation of hypophosphite and phosphorous recovery by UV/Fe2+/peroxydisulfate with electrochemical process, Chemical Engineering Journal 359, 1075-1085 (JCR Q1)
[21] S Tian, Z Zhang*, X Zhang, KK Ostrikov, 2019, Capacitative deionization using commercial activated carbon fiber decorated with polyaniline, Journal of Colloid and Interface Science 537, 247-255 (JCR Q1)
[22] S Tang, J Li, Z Zhang*, B Ren, X Zhang, 2019, Comparison of long-term ceramic membrane bioreactors without and with in-situ ozonation in wastewater treatment: Membrane fouling, effluent quality and microbial community, Science of The Total Environment 652, 788-799 (JCR Q1)
[23] J Liu, Z Zhang*, Q Chen, X Zhang, 2018, Synergistic effect of ferrate (VI)-ozone integrated pretreatment on the improvement of water quality and fouling alleviation of ceramic UF membrane in reclaimed water treatment, Journal of Membrane Science 567, 216-227 (JCR Q1)
[24] S Tang, Z Zhang*, X Zhang, 2018, Coupling in-situ ozonation with ferric chloride addition for ceramic ultrafiltration membrane fouling mitigation in wastewater treatment: Quantitative fouling analysis, Journal of Membrane Science 555, 307-317 (JCR Q1)
[25] J Liu, Z Zhang*, Z Liu, X Zhang, 2018, Integration of ferrate (VI) pretreatment and ceramic membrane reactor for membrane fouling mitigation in reclaimed water treatment, Journal of Membrane Science 552, 315-325 (JCR Q1)
[26] W Guan, G Sun, L Yin, Z Zhang*, S Tian*, 2018, Ti4O7/g-C3N4visible light photocatalytic performance on hypophosphite oxidation: effect of annealing temperature, Frontiers in Chemistry 6, 37 (JCR Q2)
[27] J Song, Z Zhang*, S Tang, Y Tan, X Zhang, 2018, Does pre-ozonation or in-situ ozonation really mitigate the protein-based ceramic membrane fouling in the integrated process of ozonation coupled with ceramic membrane filtration? Journal of Membrane Science 548, 254-262 (JCR Q1)
[28] W Guan, Z Zhang*, S Tian*, J Du, 2018, Ti4O7/g-C3N4for visible light photocatalytic oxidation of hypophosphite: Effect of mass ratio of Ti4O7/g-C3N4, Frontiers in Chemistry 6, 313 (JCR Q2)
[29] Z Zhang, MW Bligh, X Yuan, TD Waite, 2018, Ligand-promoted reductive cleaning of iron-fouled membranes from submerged membrane bioreactors, Journal of Membrane Science 545, 126-132 (JCR Q1)
[30] Q Wu, Z Zhang, G Cao, X Zhang, 2017, Impact of polymeric membrane breakage on drinking water quality and an online detection method of the breakage, Journal of Environmental Science and Health, Part A 52 (12), 1126-1132
[31] J Song, Z Zhang*, X Zhang, 2017, A comparative study of pre-ozonation and in-situ ozonation on mitigation of ceramic UF membrane fouling caused by alginate, Journal of Membrane Science 538, 50-57 (JCR Q1)
[32] S Tang, Z Zhang*, J Liu, X Zhang, 2017, Double-win effects of in-situ ozonation on improved filterability of mixed liquor and ceramic UF membrane fouling mitigation in wastewater treatment? Journal of Membrane Science 533, 112-120 (JCR Q1)
[33] S Tang, Z Zhang*, X Zhang, 2017, New insight into the effect of mixed liquor properties changed by pre-ozonation on ceramic UF membrane fouling in wastewater treatment, Chemical Engineering Journal 314, 670-680 (JCR Q1)
[34] D Wei, Y Tao*, Z Zhang*, X Zhang, 2016, Effect of pre-ozonation on mitigation of ceramic UF membrane fouling caused by algal extracellular organic matters, Chemical Engineering Journal 294, 157-166 (JCR Q1)
[35] D Wei, Y Tao*, Z Zhang*, L Liu, X Zhang, 2016, Effect of in-situ ozonation on ceramic UF membrane fouling mitigation in algal-rich water treatment, Journal of Membrane Science 498, 116-124 (JCR Q1)
[36] Z Zhang, MW Bligh, TD Waite, 2015, Ascorbic acid-mediated reductive cleaning of iron-fouled membranes from submerged membrane bioreactors, Journal of Membrane Science 477, 194-202 (JCR Q1)
[37] Z Zhang, Y Wang, GL Leslie, TD Waite, 2015, Effect of ferric and ferrous iron addition on phosphorus removal and fouling in submerged membrane bioreactors, Water Research 69, 210-222 (JCR Q1)
[38] Z Zhang, MW Bligh, Y Wang, GL Leslie, H Bustamante, TD Waite, 2015, Cleaning strategies for iron-fouled membranes from submerged membrane bioreactor treatment of wastewaters, Journal of Membrane Science 475, 9-21 (JCR Q1)
[39] Z Zhang, Q An, T Liu, Y Zhou, J Qian, C Gao, 2012, Fabrication and characterization of novel SiO2-PAMPS/PSF hybrid ultrafiltration membrane with high water flux, Desalination 297, 59-71 (JCR Q1)
[40] Q An, F Li, Y Ji, Z Zhang, H Chen, 2011, Study on removal of organic matters in water by PVA modified PA-TFC nanofiltration membrane, Desalination and Water Treatment 34 (1-3), 75-80
[41] Z Zhang, Q An, T Liu, Y Zhou, J Qian, C Gao, 2011, Fabrication of polysulfone ultrafiltration membranes of a density gradient cross section with good anti-pressure stability and relatively high water flux, Desalination 269 (1-3), 239-248 (JCR Q1)
[42] Z Zhang, Q An, Y Ji, J Qian, C Gao, 2010, Effect of zero shear viscosity of the casting solution on the morphology and permeability of polysulfone membrane prepared via the phase-inversion process, Desalination 260 (1-3), 43-50 (JCR Q1)
