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[专家学者] 厦门大学化学化工学院化学工程研究所张秋根

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发表于 2018-3-25 16:00:32 | 显示全部楼层 |阅读模式
张秋根
职称:副教授
电话:0592-2188072
个人简历:
2011.09-至今 厦门大学化学化工学院,副教授
2009.09-2011.08 日本材料研究所(NIMS),博士后
2004.09-2009.06 厦门大学,博士
2000.09-2004.06 东北林业大学,学士
2014年度“福建省高等学校新世纪优秀人才支持计划”
研究兴趣:
1. 高性能分离膜的设计与制备;2. 新型膜材料的合成与应用
近期主要代表论著:
2015
    32.  Zhang, Q G;*Deng, C; Soyekwo, F; Liu, Q L; Zhu, A M. Sub-10 nm-wide cellulose nanofibersfor ultrathin nanoporous membranes with high organic permeation, Adv.Funct. Mater. 2016, 26, 792–800.
    31.  Wu, X M; Zhang,Q G;* Soyekwo, F; Liu, Q L; Zhu, A M. Pervaporation removal of volatileorganic compounds from aqueous solutions using the highly permeable PIM-1membrane, AIChE Journal 2016, 62, 842–851.
    30.  Wu, X M; Guo,H; Soyekwo, F; Zhang, Q G;* Lin, C X; Liu, Q L; Zhu, A M.Pervaporation Purification of Ethylene Glycol Using the Highly Permeable PIM‑1Membrane, J. Chem. Eng. Data 2016, 61, 579−586.
    29.  Lai, A N;Zhou, K; Zhuo, Y Z; Zhang, Q G;* Zhu, A M; Ye, M L; Liu, Q L.*Anion exchange membranes based on carbazole-containing polyolefin for directmethanol fuel cells, J. Membr. Sci. 2016, 497, 99–107.
    28.  Li, H M; Zhang,Q G;* Guo, N N; Zhu, A M; Liu, Q L. Ultrafine polystyrene nanofibers andits application in nanofibrous membranes, Chem. Eng. J. 2015,264: 329–335.
    27.  Zhang, Q G;*Deng, C; Liu, R R; Lin, Z; Li, H M; Zhu, A M; Liu, Q L.* Ultrathin pH-sensitivenanoporous membranes for superfast size-selective separation, Chem.Asian J. 2015, 10, 1133–1137.
    26.  Lai, A N;Wang, L S; Lin, C X; Zhuo, Y Z; Zhang, Q G;* Zhu, A M; Liu, Q L.*Phenolphthalein-based poly(arylene ether sulfone nitrile)s multiblockcopolymers as anion exchange membranes for alkaline fuel cells, ACSAppl. Mater. Interfaces 2015, 7, 8284−8292.
    25.  Zhuo, Y Z;Lai, A N; Zhang, Q G;* Zhu, A M; Ye, M L; Liu, Q L.* Highlyionic-conductive crosslinked cardo poly(aryleneethersulfone)s as anion exchangemembranes for alkaline fuel cells, J. Membr. Sci. 2015, 491,138–148.
    24.  Wu, X M; Zhang,Q G;* Lin, P J; Qu, Y; Zhu, A M; Liu, Q L. Towards enhanced CO2 selectivityof the PIM-1 membrane by blending with polyethylene glycol, J. Membr.Sci. 2015, 493, 147–155.
2014
    23.  Zhou, K; Zhang,Q G;* Li, H M; Guo, N N; Zhu, A M; Liu, Q L.* Ultrathin cellulose nanosheetmembranes for superfast separation of oil-in-water nanoemulsions, Nanoscale 2014,6, 10363–10369.
    22.  Soyekwo,F; Zhang, Q G;* Deng, C; Gong, Y; Zhu, A M; Liu, Q L.* Highlypermeable cellulose acetate nanofibrous composite membranes byfreeze-extraction, J. Membr. Sci. 2014, 454, 339–345.
    21.  Guo, NN; Zhang, Q G;* Li, H M; Wu, X M;Liu, Q L; Zhu, A M.Facile fabrication, structure, and applications of polyvinyl chloridemesoporous membranes, Ind. Eng. Chem. Res. 2014, 53,20068−20073.
    20.  吴新妹; 张秋根;* 朱爱梅; 刘庆林. 自具微孔高分子气体分离膜的结构调控与改性研究, 化学进展 2014, 26(7), 1214−1222.
2013
    19.  Deng, C; Zhang,Q G;* Han, G L; Gong, Y.; Zhu, A M; Liu, Q L.* Ultrathin self-assembledanionic polymer membranes for superfast size-selective separation, Nanoscale 2013,5, 11028–11034.
    18.  Zhou, K; Zhang,Q G;* Han, G L; Zhu, A M; Liu, Q L.* Pervaporation of water–ethanol andmethanol–MTBE mixtures using poly(vinylalcohol)/cellulose acetate blendedmembranes, J. Membr. Sci.2013, 448, 93–101.
    17.  Zhang, Q G;*Han, G L; Hu, W W; Zhu, A M; Liu, Q L.* Pervaporation of methanol-ethyleneglycol mixture over organic inorganic hybrid membranes, Ind. Eng. Chem.Res. 2013, 52, 7541–7549.
    16.  Zhang, Q G;*Hu, W W; Zhu, A M; Liu, Q L.* UV-crosslinked chitosan/polyvinylpyrrolidoneblended membranes for pervaporation, RSC Adv. 2013, 3,1855–1861.
    15.  Zhang, Q G;*Hu, W W; Liu, Q L;* Zhu, A M. Chitosan/polyvinylpyrrolidone-silica hybridmembranes for pervaporation separation of methanol/ethylene glycolazeotrope, J. Appl. Polym. Sci. 2013, 129, 3178–3184.
2012
    14.  Zhang, Q G;*Liu, Q L;* Huang, S P; Hu, W W; Zhu, A M. Microstructure-related performancesof poly(vinyl alcohol)-silica hybrid membranes: a molecular dynamics simulationstudy, J. Mater. Chem. 2012, 22, 10860–10866.
2011
    13.  Zhang, Q G;Fan, B C; Liu, Q L;* Zhu, A M; Shi, F F. A novel poly(dimethyl siloxane)/poly(oligosilsesquioxanes) composite membrane for pervaporationdesulfurization, J. Membr. Sci. 2011, 366, 335–341.
    12.  Zhang, Q G;Ghosh, S; Samitsu, S; Peng, X S; Ichinose, I.* Ultrathin freestandingnanoporous membranes prepared from polystyrene nanoparticles, J. Mater.Chem. 2011, 21, 1684–1688.
2010
    11.  Zhang, Q G;Liu, Q L. Chapter 1: Hybrid organic-inorganic membranes: History andfundamentals, Advances in Solid Hybrid Materials and Membranes,2010: ISBN: 978-81-7895-461-5.
    10.  Zhang, Q G;Liu, Q L;* Meng, X J; Broadwell, I. Structure and pervaporation performance ofnovel quaternized poly(vinyl alcohol)/γ-aminopropyltriethoxysilane hybridmembranes, J. Appl. Poly. Sci. 2010, 118, 1121–1126.
2009
    9.  Zhang, Q G;Liu, Q L;* Wu, J Y; Chen, Y; Zhu, A M. Structure-related diffusion in poly(methylmethacrylate)/polyhedral oligomeric silsesquioxanes composites: A moleculardynamics simulation study, J. Membr. Sci. 2009, 342, 105–112.
    8.  Zhang, Q G;Liu, Q L;* Zhu, A M; Xiong, Y; Ren, L. Pervaporation performance of quaternizedpoly(vinyl alcohol) and its crosslinked membranes for the dehydration ofethanol, J. Membr. Sci. 2009, 335, 68–75.
    7.  Zhang, Q G;Liu, Q L;* Chen, Y; Wu, J Y; Zhu, A M. Microstructure dependent diffusion ofwater–ethanol in swollen poly(vinyl alcohol): A molecular dynamics simulationstudy, Chem. Eng. Sci. 2009, 64, 334–340.
2008
    6. Zhang,Q G; Liu, Q L;* Jiang, Z Y; Ye, L Y; Zhang, X H. Effects of annealing onthe physico-chemical structure and permeation performance of novel hybridmembranes of poly(vinyl alcohol)/c-aminopropyl-triethoxysilane, Micropor.Mesopor. Mat. 2008, 110, 379–391.
    5. Zhang,Q G; Liu, Q L;* Zhu, A M; Xiong, Y; Zhang, X H. Characterization andpermeation performance of novel organic-inorganic hybrid membranes ofpoly(vinyl alcohol)/1,2-bis(triethoxysilyl)ethane, J. Phys. Chem. B 2008,112, 16559–16565.
    4.  Zhang, Q G;Liu, Q L;* Shi F F; Xiong, Y. Structure and permeation of organic–inorganichybrid membranes composed of poly(vinyl alcohol) and polysilisesquioxane, J.Mater. Chem. 2008, 18, 4646–4653.
2007
    3.  Zhang, Q G;Liu, Q L;* Jiang, Z Y; Chen, Y; Anti-trade-off in dehydration of ethanol bynovel PVA/APTEOS hybrid membranes, J. Membr. Sci. 2007, 287,237–245.
    2.  Zhang, Q G;Liu, Q L;* Lin, J; Chen, J H; Zhu, A M. Analyzing solubility and diffusion ofsolvents in novel hybrid materials of poly(vinylalcohol)/γ-aminopropyltriethoxysilane by inverse gas chromatography, J.Mater. Chem. 2007, 17, 4889–4895.
    1.  Zhang, Q G;Liu, Q L;* Chen, Y; Chen, J H. Dehydration of isopropanol by novel poly(vinylalcohol)-silicone hybrid membranes, Ind. Eng. Chem. Res. 2007,46, 913–920.


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发表于 2018-11-23 12:57:05 | 显示全部楼层
张秋根AIChE:高性能分离膜与膜材料新进展!
纳滤是一种介于反渗透和超滤之间的压力驱动膜分离过程,其孔径0.5‒2 nm,能截留分子量大于200 Da的有机物及多价离子,同时允许小分子有机物和单价离子透过,主要应用于水的软化、净化以及相对分子质量在百级的物质的分离、分级和浓缩等。目前,纳滤膜通常以超滤膜为基膜经界面聚合制成,存在传质阻力大、通量小、操作压力高的不足,限制了纳滤的工业应用。
课题组从减小膜阻力着手,开发了纳米纤维(含纳米管)支撑层法在微滤基膜上制备高通量纳滤膜(Journal of Materials Chemistry A, 2017, 5, 583–592; Journal of Membrane Science, 2017,524,174–185),该膜水通量是同类型纳滤膜的2倍以上。在此基础上,课题组近期以聚多巴胺表面改性的碳纳米管超薄堆积层为支撑在微滤膜上构建了聚乙烯醇/聚乙烯亚胺互穿网络分离层,经锌离子改性后可获得通量大、磷酸根选择性透过的高性能纳滤膜。该膜对二价金属离子呈现高截留率(>85%),而磷酸根的截留率低于15%,在废水处理磷回收中具有潜在的应用前景。

高性能分离膜与膜材料

高性能分离膜与膜材料
Soyekwo F,Zhang Q, et al.Tetraamminezinc complex integrated interpenetrating polymer network nanocomposite membrane for phosphorous recovery[J]. AIChE Journal, 2018.
DOI: 10.1002/aic.16463
https://onlinelibrary.wiley.com/doi/10.1002/aic.16463

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发表于 2019-2-17 11:03:45 | 显示全部楼层
2018自然科学基金面上项目-富勒烯插层氧化石墨烯超薄纳滤膜的制备及结构调控研究
批准号        21878253        学科分类        ( B080402 )
负责人        张秋根        职称                单位名称        厦门大学
资助金额        66万元        项目类别        面上项目        起止年月        2019年01月01日 至 2022年12月31日

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