成果

日期:2017-05-20 19:07

 

 

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论 文


2021

[1]Yuan, J.-J., Huang, Z., Song, Y.-Z., Li, M.-Y., Fang, L.-F., Zhu, B.-K., Li, H.-Y., In-situ crosslinked binder for high-stability S cathodes with greatly enhanced conduction and polysulfides anchoring. Chemical Engineering Journal, 2021, 426, 128705.

[2]Qiu, Z.-L., Yu, W.-H., Shen, Y.-J., Zhu, B.-K., Fang, L.-F., Janus charged polyamide nanofilm with ultra-high separation selectivity for mono-/divalent ions. Chemical Engineering Journal, 416, 129023.

[3]Qiu, Z.-L., Yu, W.-H., Shen, Y.-J., Zhu, B.-K., Fang, L.-F., Cationic hyperbranched poly(amido-amine) engineered nanofiltration membrane for molecular separation. Journal of Membrane Science, 2021, 629, 119275.

[4]Qiu, Z.-L., Fang, L.-F., Shen, Y.-J., Yu, W.-H., Zhu, B.-K., Hélix-Nielsen, C., Zhang, W., Ionic Dendrimer Based Polyamide Membranes for Ion Separation. ACS Nano, 2021, 15(4), 7522-7535.

[5]Shen, Y.-J., Kong, Q.-R., Fang, L.-F., Qiu, Z.-L., Zhu, B.-K., Construction of covalently-bonded tannic acid/polyhedral oligomeric silsesquioxanes nanochannel layer for antibiotics/salt separation. Journal of Membrane Science, 2021, 623, 119044.

[6]Yuan, J.-J., Sun, C.-C., Fang, L.-F., Song, Y.-Z., Yan, Y., Qiu, Z.-L., Shen, Y.-J., Li, H.-Y., Zhu, B.-K., A lithiated gel polymer electrolyte with superior interfacial performance for safe and long-life lithium metal battery. Journal of Energy Chemistry, 2021, 55, 313-322.

[7]Zhu, M.-M., Fang, Y., Chen, Y.-C., Lei, Y.-Q., Fang, L.-F., Zhu, B.-K., Matsuyama, H., Antifouling and antibacterial behavior of membranes containing quaternary ammonium and zwitterionic polymers. Journal of Colloid and Interface Science, 2021, 584, 225-235.

[8]Yuan, J.-J., Kong, Q.-R., Huang, Z., Song, Y.-Z., Li, M.-Y., Fang, L.-F., Zhu, B.-K., Li, H.-Y., A well-designed polymer as a three-in-one multifunctional binder for high-performance lithium-sulfur batteries. Journal of Materials Chemistry A, 2021, 9(5), 2970-2979.

[9]Tang, A., Fang, C., Feng, W., Lu, J., Li, J., Zhu, L., Engineering novel thin-film composite membranes with crater-like surface morphology using rigidly-contorted monomer for high flux nanofiltration. Desalination, 2021, 509, 115067.

[10]Shui, X., Li, J., Zhang, M., Fang, C., Zhu, L., Tailoring ultrathin microporous polyamide films with rapid solvent transport by molecular layer-by-layer deposition. Journal of Membrane Science, 628, 119249.

[11]Lu, J., Fang, J., Li, J., Zhu, L., Engineering highly transparent UV-shielding films with disassembled polydopamine oligomers as light adsorber. Applied Surface Science, 2021, 550, 149284.

[12]Cheng, L., Zhang, M., Fang, C., Feng, W., Zhu, L., Xu, Y., Positively charged poly (N-vinyl imidazole) gel-filled loose nanofiltration membranes: Performances and modelling analysis. Journal of Membrane Science, 2021, 625, 118975.

[13]Li, J.-Q., Fang, C.-J., Feng, W.-L., Fang, J.-C., Zhu, L.-P., Surface/Interfacial design and tailoring of polymeric membranes for liquid-phase separation. Journal of Zhejiang University: Science A, 2021, 22(2), 85-93.

[14]Fang, J., Liu, G., Chen, C., Lin, C., Zhang, B., Jin, H., Chen, Y., Lu, J., Zhu, L., Intrinsically antibacterial thin film composite membranes with supramolecularly assembled lysozyme nanofilm as selective layer for molecular separation. Separation and Purification Technology, 2021, 254, 117585.

2020

[1]Xie, Y.-X., Tang, Y.-L., Yang, Q., Zhou, M.-Y., Zhu, B.-K., Preparation and performance of different charged polyvinyl chloride ultrafiltration membranes. Gao Xiao Hua Xue Gong Cheng Xue Bao/Journal of Chemical Engineering of Chinese Universities, 2020, 34(6), 1527-1535.

[2]Yan, Y., Kong, Q.-R., Sun, C.-C., Yuan, J.-J., Huang, Z., Fang, L.-F., Zhu, B.-K., Song, Y.-Z., Copolymer-assisted Polypropylene Separator for Fast and Uniform Lithium Ion Transport in Lithium-ion Batteries. Chinese Journal of Polymer Science (English Edition), 2020, 38(12),1313-1324.

[3]Sun, C.-C., Song, Y.-Z., Yan, Y., Yuan, J.-J., Huang, Z., Fang, L.-F., Zhu, B.-K., Integrating flexible PMIA separator and electrode for dealing with multi-aspect issues in Li–S batteries. Electrochimica Acta, 2020, 359, 136987.

[4]Xie, Y.-X., Wang, K.-K., Yu, W.-H., Cui, M.-B., Shen, Y.-J., Wang, X.-Y., Fang, L.-F., Zhu, B.-K., Improved permeability and antifouling properties of polyvinyl chloride ultrafiltration membrane via blending sulfonated polysulfone. Journal of Colloid and Interface Science, 2020, 579, 562-572.

[5]Sun, C.-C., Zhou, M.-Y., Yuan, J.-J., Yan, Y., Song, Y.-Z., Fang, L.-F., AbdAllah, H., Shalaby, M.S., Shaban, A.M., Zhu, B.-K., Regulating the aggregation of anionic nanoparticles for size-tunable nanochannels. Journal of Membrane Science, 2020, 604, 118076.

[6]Sun, C.-C., Zhou, M.-Y., Yuan, J.-J., Yan, Y., Song, Y.-Z., Fang, L.-F., Zhu, B.-K., Membranes with negatively-charged nanochannels fabricated from aqueous sulfonated polysulfone nanoparticles for enhancing the rejection of divalent anions, Journal of Membrane Science, 602, 117692.

[7]Fang, C., Zhang, X., Gong, X., Feng, W., Zhu, L., Matsuyama, H., Enhancing membrane surface antifouling by implanting amphiphilic polymer brushes using a swelling induced entrapment technique. Colloids and Surfaces B: Biointerfaces, 2020, 195, 111212.

[8]Li, J., Zhang, M., Feng, W., Zhu, L., Zhang, L., PIM-1 pore-filled thin film composite membranes for tunable organic solvent nanofiltration. Journal of Membrane Science, 2020, 601, 117951.

[9]Wang, Z., Guo, S., Zhang, B., Fang, J., Zhu, L., Interfacially crosslinked β-cyclodextrin polymer composite porous membranes for fast removal of organic micropollutants from water by flow-through adsorption. Journal of Hazardous Materials, 2020, 384, 121187.

[10]Lu, J., Fang, J., Li, J., Wang, C., He, Z., Zhu, L., Xu, Z., Zeng, H., Polydopamine Nanotubes Decorated with Ag Nanoparticles as Catalyst for the Reduction of Methylene Blue. ACS Applied Nano Materials, 2020, 3(1), 156-164.

2019

[1]Wei, X.-Z., Gan, Z.-Q., Shen, Y.-J., Qiu, Z.-L., Fang, L.-F., Zhu, B.-K., Negatively-charged nanofiltration membrane and its hexavalent chromium removal performance. Journal of Colloid and Interface Science, 2019, 553, 475-483.

[2]Shen, Y.-J., Fang, L.-F., Yan, Y., Yuan, J.-J., Gan, Z.-Q., Wei, X.-Z., Zhu, B.-K., Metal-organic composite membrane with sub-2 nm pores fabricated via interfacial coordination. Journal of Membrane Science, 2019, 587, 117146.

[3]Kong, Q.-R., Zhang, Y.-Z., Tian, H., Fang, L.-F., Zhou, M.-Y., Zhu, L.-P., Zhu, B.-K., Mass transfer enhancement of hollow fiber membrane deoxygenation by Dean vortices. Journal of Zhejiang University: Science A, 20(8), 601-613.

[4]Zhou, M.-Y., Zhang, P., Fang, L.-F., Zhu, B.-K., Wang, J.-L., Chen, J.-H., Abdallah, H.M., A positively charged tight UF membrane and its properties for removing trace metal cations via electrostatic repulsion mechanism. Journal of Hazardous Materials, 2019, 373, 168-175.

[5]Yuan, J.-J., Song, Y.-Z., Zhang, Y., Qiu, Z.-L., Sun, C.-C., Yin, X., Zhu, L.-P., Zhu, B.-K., Polyphenols assisted silica coating on polypropylene separators with improved wettability and heat-resistance for lithium-ion batteries. Journal of Applied Polymer Science, 2019, 136(13), 47277.

[6]Lin, C.-E., Fang, L.-F., Du, S.-Y., Yao, Z.-K., Zhu, B.-K., A novel positively charged nanofiltration membrane formed via simultaneous cross-linking/quaternization of poly(m-phenylene isophthalamide)/polyethyleneimine blend membrane. Separation and Purification Technology, 2019, 212, 101-109.

[7]Zhou, M.-Y., Fang, L.-F., Sun, C.-C., Lin, C.-E., Zhu, B.-K., Chen, J.-H., Pore size tailoring from ultrafiltration to nanofiltration with PVC-g-PDMA via rapid immersion thermal annealing. Journal of Membrane Science, 2019, 572, 401-409.

[8]Fang, L.-F., Zhou, M.-Y., Cheng, L., Zhu, B.-K., Matsuyama, H., Zhao, S., Positively charged nanofiltration membrane based on cross-linked polyvinyl chloride copolymer. Journal of Membrane Science, 2019, 572, 28-37.

[9]Wang, N.-C., Fang, L.-F., Wang, J., Zhang, P., Wang, W.-B., Lin, C.-E., Xiao, L., Chen, C., Zhao, B., Abdallah, H., Matsuyama, H., Zhu, B.-K., pH-dependent property of carboxyl-based ultrafiltration membranes fabricated from poly(vinyl chloride-r-acrylic acid). Journal of Applied Polymer Science, 2019, 136(7), 47068.

[10]Sun, C.-C., Zhou, M.-Y., Wang, N.-C., Yin, X., Yuan, J.-J., Song, Y.-Z., Zhu, L.-P., Zhu, B.-K., An effective approach towards endowing membranes with tunable charge characteristics and large nanopores. Separation and Purification Technology, 2019, 210, 159-166.

[11]Wang, Z., Guo, S., Zhang, B., Zhu, L., Hydrophilic polymers of intrinsic microporosity as water transport nanochannels of highly permeable thin-film nanocomposite membranes used for antibiotic desalination. Journal of Membrane Science, 2019, 592, 117375.

[12]Wang, Z., Zhang, B., Fang, C., Liu, Z., Fang, J., Zhu, L., Macroporous membranes doped with micro-mesoporous β-cyclodextrin polymers for ultrafast removal of organic micropollutants from water. Carbohydrate Polymers, 2019, 222, 114970.

[13]Zhang, L., Zhang, M., Lu, J., Tang, A., Zhu, L., Highly permeable thin-film nanocomposite membranes embedded with PDA/PEG nanocapsules as water transport channels. Journal of Membrane Science, 2019, 586, 115-121.

[14]Wang, Z., Cui, F., Pan, Y., Hou, L., Zhang, B., Li, Y., Zhu, L.,Hierarchically micro-mesoporous β-cyclodextrin polymers used for ultrafast removal of micropollutants from water. Carbohydrate Polymers, 2019, 213, 352-360.

[15]Li, J., Tang, A., Lu, J., Zhang, P., Shen, M., Zhu, L., Effects of extra amine sources on the permeability and separation properties of nanofiltration membranes prepared by polydopamine deposition. Desalination and Water Treatment, 2019, 147, 10-19.

[16]Zhang, P., Hu, W., Wu, M., Gong, L., Tang, A., Xiang, L., Zhu, B., Zhu, L., Zeng, H., Cost-Effective Strategy for Surface Modification via Complexation of Disassembled Polydopamine with Fe(III) Ions, Langmuir, 2019, 35(11), 4101-4109.

2018

[1]Zhang, Y., Yuan, J.-J., Song, Y.-Z., Yin, X., Sun, C.-C., Zhu, L.-P., Zhu, B.-K., Tannic acid/polyethyleneimine-decorated polypropylene separators for Li-Ion batteries and the role of the interfaces between separator and electrolyte. Electrochimica Acta, 2018, 275, 25-31.

[2]Zhang, Y., Song, Y.-Z., Yuan, J.-J., Yin, X., Sun, C.-C., Zhu, B.-K., Polypropylene separator coated with a thin layer of poly(lithium acrylate-co-butyl acrylate) for high-performance lithium-ion batteries. Journal of Applied Polymer Science, 2018, 135 (26), 46423.

[3]Zhang, H., Lin, C., Hu, X., Zhu, B., Yu, D., Effective Dual Polysulfide Rejection by a Tannic Acid/FeIII Complex-Coated Separator in Lithium-Sulfur Batteries. ACS Applied Materials and Interfaces, 2018, 10 (15), 12708-12715.

[4]Yao, Z., Guo, H., Yang, Z., Lin, C., Zhu, B., Dong, Y., Tang, C.-Y., Reactable substrate participating interfacial polymerization for thin film composite membranes with enhanced salt rejection performance. Desalination, 2018, 436, 1-7.

[5]Wei, X., Bao, X., Wu, J., Li, C., Shi, Y., Chen, J., Lv, B., Zhu, B., Typical pharmaceutical molecule removal behavior from water by positively and negatively charged composite hollow fiber nanofiltration membranes. RSC Advances, 2018, 8 (19), 10396-10408.

[6]Wang, N.-C., Wang, J., Zhang, P., Wang, W.-B., Sun, C.-C., Xiao, L., Chen, C., Zhao, B., Kong, Q.-R., Zhu, B.-K., Metal cation removal by P(VC-r-AA) copolymer ultrafiltration membranes. Frontiers of Chemical Science and Engineering, 2018, 12 (2), 262-272.

[7]Song, Y.-Z., Zhang, Y., Yuan, J.-J., Lin, C.-E., Yin, X., Sun, C.-C., Zhu, B.-K., Zhu, L.-P., Fast assemble of polyphenol derived coatings on polypropylene separator for high performance lithium-ion batteries. Journal of Electroanalytical Chemistry, 2018, 808, 252-258.

[8]Song, Y.-Z., Yuan, J.-J., Yin, X., Zhang, Y., Lin, C.-E., Sun, C.-C., Fang, L.-F., Zhu, B.-K., Zhu, L.-P., Effect of polyphenol-polyamine treated polyethylene separator on the ionic conduction and interface properties for lithium-metal anode batteries. Journal of Electroanalytical Chemistry, 2018, 816, 68-74.

[9]Qiu, Z.-L., Kong, X., Yuan, J.-J., Shen, Y.-J., Zhu, B.-K., Zhu, L.-P., Yao, Z.-K., Tang, C.-Y., Cross-linked PVC/hyperbranched polyester composite hollow fiber membranes for dye removal. Reactive and Functional Polymers, 2018, 122, 51-59.

[10]Lin, C.-E., Zhang, H., Song, Y.-Z., Zhang, Y., Yuan, J.-J., Zhu, B.-K., Carboxylated polyimide separator with excellent lithium ion transport properties for a high-power density lithium-ion battery. Journal of Materials Chemistry A, 2018, 6 (3), 991-998.

[11]Fang, L.-F., Matsuyama, H., Zhu, B.-K., Zhao, S., Development of antifouling poly(vinyl chloride) blend membranes by atom transfer radical polymerization. Journal of Applied Polymer Science, 2018, 135 (6).

2017

[1]Zhang, P.-B., Liu, C.-J., Sun, J., Zhu, B.-K., Zhu, L.-P., Fabrication of composite nanofiltration membranes by dopamine-assisted poly(ethylene imine) deposition and cross-linking. Journal of Zhejiang University: Science A, 2017, 18 (2), 138-150.

[2]Zhang, P., Tang, A., Zhu, B., Zhu, L., Zeng, H., Hierarchical Self-Assembly of Dopamine into Patterned Structures. Advanced Materials Interfaces, 2017, 4 (11), 1601218.

[3]Yin, X., Sun, C., Zhang, B., Song, Y., Wang, N., Zhu, L., Zhu, B., A facile approach to fabricate superhydrophobic coatings on porous surfaces using cross-linkable fluorinated emulsions. Chemical Engineering Journal, 2017, 330, 202-212.

[4]Yin, X., Song, Y.-Z., Liang, Z.-Y., Zhang, B., Fang, L.-F., Zhu, L.-P., Zhu, B.-K., Synthesis of sulfonyl fluorinated macro emulsifier for low surface energy emulsion polymerization application. Journal of Applied Polymer Science, 2017, 134 (23), 44921.

[5]Yang, Z., Wu, Y., Guo, H., Ma, X.-H., Lin, C.-E., Zhou, Y., Cao, B., Zhu, B.-K., Shih, K., Tang, C.-Y., A novel thin-film nano-templated composite membrane with in situ silver nanoparticles loading: Separation performance enhancement and implications. Journal of Membrane Science, 2017, 544, 351-358.

[6]Tao, X., Zheng, B., Bai, T., Zhu, B.-K., Ling, J., Hydroxyl Group Tolerated Polymerization of N-Substituted Glycine N-Thiocarboxyanhydride Mediated by Aminoalcohols: A Simple Way to α-Hydroxyl-ω-aminotelechelic Polypeptoids. Macromolecules, 2017, 50 (8), 3066-3077.

[7]Song, Y.-Z., Kong, X., Yin, X., Zhang, Y., Sun, C.-C., Yuan, J.-J., Zhu, B.-K., Zhu, L.-P., Tannin-inspired superhydrophilic and underwater superoleophobic polypropylene membrane for effective oil/water emulsions separation. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017, 522, 585-592.

[8]Kong, X., Qiu, Z.-L., Lin, C.-E., Song, Y.-Z., Zhu, B.-K., Zhu, L.-P., Wei, X.-Z., High permselectivity hyperbranched polyester/polyamide ultrathin films with nanoscale heterogeneity. Journal of Materials Chemistry A, 2017, 5 (17), 7876-7884.

[9]Hu, F., Fang, C., Wang, Z., Liu, C., Zhu, B., Zhu, L., Poly (N-vinyl imidazole) gel composite porous membranes for rapid separation of dyes through permeating adsorption. Separation and Purification Technology, 2017, 188, 1-10.

[10]]Guo, H., Deng, Y., Yao, Z., Yang, Z., Wang, J., Lin, C., Zhang, T., Zhu, B.-K., Tang, C.-Y., A highly selective surface coating for enhanced membrane rejection of endocrine disrupting compounds: Mechanistic insights and implications. Water Research, 2017, 121, 197-203.

[11]Fang, L.-F., Zhu, B.-K., Zhu, L.-P., Matsuyama, H., Zhao, S., Structures and antifouling properties of polyvinyl chloride/poly(methyl methacrylate)-graft-poly(ethylene glycol) blend membranes formed in different coagulation media. Journal of Membrane Science, 2017, 524, 235-244.

[12]Fang, L.-F., Jeon, S., Kakihana, Y., Kakehi, J.-I., Zhu, B.-K., Matsuyama, H., Zhao, S., Improved antifouling properties of polyvinyl chloride blend membranes by novel phosphate based-zwitterionic polymer additive. Journal of Membrane Science, 2017, 528, 326-335.

2016

[1]Wang, J., Zhu, B., Construction and separation performance of charged modification PSf membrane via interface crosslinking, 2016, Gongneng Cailiao/Journal of Functional Materials, 47, 95-98.

[2]Zhao, B., Ou-Yang, M., Zhu, B.-K., Zhang, C., Preparation of positively-charged blend PVC/PEI ultrafiltration membranes with crosslink structure for dye/salt separation, Gao Xiao Hua Xue Gong Cheng Xue Bao/Journal of Chemical Engineering of Chinese Universities, 2016,  30, 1249-1256.

[3]Kong, X., Zhang, Y., Zeng, S.-Y., Zhu, B.-K., Zhu, L.-P., Fang, L.-F., Matsuyama, H., Incorporating hyperbranched polyester into cross-linked polyamide layer to enhance both permeability and selectivity of nanofiltration membrane, Journal of Membrane Science, 2016, 518, 141-149.

[4]Lin, C.-E., Wang, J., Zhou, M.-Y., Zhu, B.-K., Zhu, L.-P., Gao, C.-J., Poly(m-phenylene isophthalamide) (PMIA): A potential polymer for breaking through the selectivity-permeability trade-off for ultrafiltration membranes, Journal of Membrane Science, 2016, 518, 72-78.

[5]Zhang, H., Zhang, Y., Xu, T., John, A.E., Li, Y., Li, W., Zhu, B., Poly(m-phenylene isophthalamide) separator for improving the heat resistance and power density of lithium-ion batteries, Journal of Power Sources, 2016, 329, 8-16.

[6]Guo, H., Deng, Y., Tao, Z., Yao, Z., Wang, J., Lin, C., Zhang, T., Zhu, B., Tang, C.Y., Does Hydrophilic Polydopamine Coating Enhance Membrane Rejection of Hydrophobic Endocrine-Disrupting Compounds?, Environmental Science and Technology Letters, 2016, 3, 332-338.

[7] Zhang, H., Zhang, Y., Yao, Z., John, A.E., Li, Y., Li, W., Zhu, B., Novel configuration of polyimide matrix-enhanced cross-linked gel separator for high performance lithium ion batteries, Electrochimica Acta, 2016, 204, 176-182.

[8] Kong, X., Zhou, M.-Y., Lin, C.-E., Wang, J., Zhao, B., Wei, X.-Z., Zhu, B.-K., Polyamide/PVC based composite hollow fiber nanofiltration membranes: Effect of substrate on properties and performance, Journal of Membrane Science, 2016, 505, 231-240.

[9] Zhu, L.-J., Zhu, L.-P., Zhang, P.-B., Zhu, B.-K., Xu, Y.-Y., Surface zwitterionicalization of poly(vinylidene fluoride) membranes from the entrapped reactive core-shell silica nanoparticles, Journal of Colloid and Interface Science, 2016, 468, 110-119.

[10] Zhang, H., Lin, C.-E., Zhou, M.-Y., John, A.E., Zhu, B.-K., High thermal resistance polyimide separators prepared via soluble precusor and non-solvent induced phase separation process for lithium ion batteries, Electrochimica Acta, 2016, 187, 125-133.

2015

[1]Yao, Z., Du, S., Zhang, Y., Zhu, B., Zhu, L., John, A.E., Positively charged membrane for removing low concentration Cr(VI) in ultrafiltration process, Journal of Water Process Engineering, 2015, 8, 99-107.

[2]Fang, L.-F., Wang, N.-C., Zhou, M.-Y., Zhu, B.-K., Zhu, L.-P., John, A.E., Poly(N,N-dimethylaminoethyl methacrylate) grafted poly(vinyl chloride)s synthesized via ATRP process and their membranes for dye separation, Chinese Journal of Polymer Science (English Edition), 2015, 33, 1491-1502.

[3] Cui, Y., Yao, Z.-K., Zheng, K., Du, S.-Y., Zhu, B.-K., Zhu, L.-P., Du, C.-H., Positively-charged nanofiltration membrane formed by quaternization and cross-linking of blend PVC/P(DMA-co-MMA) precursors, Journal of Membrane Science, 2015, 492, 187-196.

[4] Cheng, L., Zhang, P.-B., Zhao, Y.-F., Zhu, L.-P., Zhu, B.-K., Xu, Y.-Y., Preparation and characterization of poly (N-vinyl imidazole) gel-filled nanofiltration membranes, Journal of Membrane Science, 2015, 492, 380-391.

[5] Jiang, J., Zhang, P., Zhu, L., Zhu, B., Xu, Y., Improving antifouling ability and hemocompatibility of poly(vinylidene fluoride) membranes by polydopamine-mediated ATRP, ournal of Materials Chemistry B, 2015, 3, 7698-7706.

[6] Zhang, H., Zhou, M.-Y., Lin, C.-E., Zhu, B.-K., Progress in polymeric separators for lithium ion batteries, RSC Advances, 2015, 5, 89848-89860.

[7] Yao, Z.-K., Li, Y., Zhu, B.-K., Zhu, L.-P., Construction and separation performance of positively charged nanofiltration separation layers prepared via surface in-situ polymerization, Gao Xiao Hua Xue Gong Cheng Xue Bao/Journal of Chemical Engineering of Chinese Universities, 2015, 29, 789-794.

[8] Fang, L.-F., Zhou, M.-Y., Wang, N.-C., Zhu, B.-K., Zhu, L.-P., Improving the antifouling property of poly(vinyl chloride) membranes by poly(vinyl chloride)-g-poly(methacrylic acid) as the additive, Journal of Applied Polymer Science, 2015, 132, 42745.

[9] Yao, Z., Cui, Y., Zheng, K., Zhu, B., Zhu, L., Composition and properties of porous blend membranes containing tertiary amine based amphiphilic copolymers with different sequence structures, Journal of Colloid and Interface Science, 2015, 437, 124-131.

[10] Liu, T., An, Q.-F., Zhao, Q., Wu, J.-K., Song, Y.-H., Zhu, B.-K., Gao, C.-J., Synergistic strengthening of polyelectrolyte complex membranes by functionalized carbon nanotubes and metal ions, Scientific Reports, 2015, 5, 7782.

[11] Yao, Z., Li, Y., Cui, Y., Zheng, K., Zhu, B., Xu, H., Zhu, L., Tertiary amine block copolymer containing ultrafiltration membrane with pH-dependent macromolecule sieving and Cr(VI) removal properties, Desalination, 2015, 355, 91-98.


专 利


[1] 一种水凝胶改性聚合物分离膜的制备方法- 201510635859.4;

[2] 一种阳离子功能化氯乙烯聚合物及其制备方法- 201510058518.5;

[3] 一种非离子功能化含氟聚合物及其制备方法- 201510058126.9;

[4] 一种阳离子功能化含氟聚合物及其制备方法- 201510058266.6;

[5] 一种阴离子功能化含氟聚合物及其制备方法- 201510059517.2;

[6] 一种交联型荷正电含氯聚合物过滤膜及其制备方法- 201410733614.0;

[7] 一种荷电型含氯聚合物纳滤膜及其制备方法- 201410733611.7;

[8] 一种儿茶酚化合物纳米粒子改性的聚合物复合膜的制备方法- 201410495217.4;

[9] 一种表面离子化改性聚砜超滤膜的制备方法- 201210257264.6;

[10] 一种多层结构管式纳滤膜及其制备方法- 201210203303.4;

[11] 一种改性聚芳醚的制备方法- 201210078458.X;

[12] 一种用于锂离子电池的活性复合多孔隔膜及其制备方法- 201110177714.6;

[13] 一种超亲水聚偏氟乙烯膜的制备方法- 201110127998.8;

[14] 一种在聚合物微孔膜表面固定生物分子的方法- ZL200910155884.7。


 



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