姓名:宇海银
性别:男
出生年月:
职称:教授
学院:化学与材料科学学院
研究方向:
所受教育
学士 (1991年) 济南大学(原山东建筑材料工业学院)
硕士 (2000年) 合肥工业大学
博士 (2006年) 浙江大学
职称职位
2000- 现在 安徽师范大学 助教、讲师、教授
主持项目
无机纳米粒子在聚合物分离膜表面的组装及其性能研究(No.20871003),35万, 2009.1-2011.12,国家自然科学基金。
醇溶酯溶水溶性聚烯烃表印油墨的研究与开发,主要参与人,负责油墨用树脂的合成,2009.5-2010.5,巢湖市朝盛化工有限责任公司。
紫外光固化水性油墨的研究开发(2009xzd05),1万,2009.10-2010.10,安徽师范大学自然科学基金重点项目
研究领域
高分子分离膜表面功能化
水性油墨
水处理用絮凝剂
高分子基纳米复合材料
讲授课程
高分子物理
高分子化学
高分子材料
获奖情况
徐志康,刘振梅,吴健,杨谦,宇海银,郑巨孟。聚丙烯微孔膜的表面工程基础研究(中华人民共和国教育部,证书号2008-077),浙江大学。自然科学奖二等奖,获奖时间2009.1.20。
发表论文(2005年以来发表被SCI收录的论文)
J. Zhou, W. Li, J.-S. Gu, H.-Y. Yu, Z.-Q. Tang, and X.-W. Wei, Development of a novel RAFT-UV grafting technique to modify polypropylene membrane used for NOM removal. Separation and Purification Technology 71 (2010) 233-240.
J. zhou, W. Li, J.-S. Gu, and H.-Y. Yu, surface modification of polypropylene membrane to improve antifouling characteristics in a submerged membrane-bioreactor: Ar plasma treatment. Membrane Water Treatment 1 (2010) 83-92.
W. Li, J. Zhou, J.S. Gu, and H.Y. Yu, Fouling Control in a Submerged Membrane-Bioreactor by the Membrane Surface Modification. Journal of Applied Polymer Science 115 (2010) 2302-2309.
H.-Y. Yu, W. Li, J. Zhou, J.-S. Gu, L. Huang, Z.-Q. Tang, and X.-W. Wei, Thermo- and pH-responsive polypropylene microporous membrane prepared by the photoinduced RAFT-mediated graft copolymerization. Journal of Membrane Science 343 (2009) 82-89.
Z.-Q. Tang, W. Li, J. Zhou, H.-Y. Yu, L. Huang, M.-G. Yan, J.-S. Gu, and X.-W. Wei, Antifouling characteristics of sugar immobilized polypropylene microporous membrane by activated sludge and bovine serum albumin. Separation and Purification Technology 64 (2009) 332-336.
Z.-Q. Tang, W. Li, L.-Q. Liu, L. Huang, J. Zhou, and H.-Y. Yu, Controlled grafting of poly(methylmethacrylate) brushes on poly(vinylidene fluoride) powders by surface initiated atom transfer radical polymerization. Chinese Journal of Chemistry 27 (2009) 1-10.
X.-C. He, L.-Q. Liu, Z.-Q. Tang, M.-G. Yan, J.-S. Gu, X.-W. Wei, and H.-Y. Yu, Reducing protein fouling of polypropylene microporous membrane by CO2 plasma surface modification. Desalination 44 (2009) 80-89.
J.-S. Gu, H.-Y. Yu, L. Huang, Z.-Q. Tang, W. Li, J. Zhou, M.-G. Yan, and X.-W. Wei, Chain-length dependence of the antifouling characteristics of the glycopolymer-modified polypropylene membrane in an SMBR. Journal of Membrane Science 326 (2009) 145-152.
H.-Y. Yu, Z.-Q. Tang, L. Huang, G. Cheng, W. Li, J. Zhou, M.-G. Yan, J.-S. Gu, and X.-W. Wei, Surface modification of polypropylene macroporous membrane to improve its antifouling characteristics in a submerged membrane-bioreactor: H2O plasma treatment. Water Research 42 (2008) 4341-4347.
H.-Y. Yu, L.-Q. Liu, Z.-Q. Tang, M.-G. Yan, J.-S. Gu, and X.-W. Wei, Surface modification of polypropylene microporous membrane to improve its antifouling characteristics in an SMBR: Air plasma treatment. Journal of Membrane Science 311 (2008) 216-224.
H.-Y. Yu, L.-Q. Liu, Z.-Q. Tang, M.-G. Yan, J.-S. Gu, and X.-W. Wei, Mitigated membrane fouling in an SMBR by surface modification. Journal of Membrane Science 310 (2008) 409-417.
H.-Y. Yu, X.-C. He, L.-Q. Liu, J.-S. Gu, and X.-W. Wei, Surface Modification of Poly(propylene) Microporous Membrane to Improve Its Antifouling Characteristics in an SMBR: O2 Plasma Treatment. Plasma Processes and Polymers 5 (2008) 84-91.
M.-G. Yan, L.-Q. Liu, Z.-Q. Tang, L. Huang, W. Li, J. Zhou, J.-S. Gu, X.-W. Wei, and H.-Y. Yu, Plasma surface modification of polypropylene microfiltration membranes and fouling by BSA dispersion. Chemical Engineering Journal 145 (2008) 218-224.
H.-Y. Yu, Z.-K. Xu, H. Lei, M.-X. Hu, and Q. Yanga, Photoinduced graft polymerization of acrylamide on polypropylene microporous membranes for the improvement of antifouling characteristics in a submerged membrane-bioreactor. Separation and Purification Technology 53 (2007) 119-125.
H.-Y. Yu, X.-C. He, L.-Q. Liu, J.-S. Gu, and X.-W. Wei, Surface modification of polypropylene microporous membrane to improve its antifouling characteristics in an SMBR: N2 plasma treatment. Water Research 41 (2007) 4703-4709.
H.-Y. Yu, J.-M. He, L.-Q. Liu, X.-C. He, J.-S. Gu, and X.-W. Wei, Photoinduced graft polymerization to improve antifouling characteristics of an SMBR. Journal of Membrane Science 302 (2007) 235-242.
H.-Y. Yu, Z.-K. Xu, -.Q. Yang, M.-X. Hu, and S.-Y. Wang, Improvement of the Antifouling Characteristics for Polypropylene Microporous Membranes by the Sequential Photoinduced Graft Polymerization of Acrylic Acid. Journal of Membrane Science 281 (2006) 658-668.
H.-Y. Yu, Z.-K. Xu, Y.-J. Xie, Z.-M. Liu, and S.-Y. Wang, Flux Enhancement for Polypropylene Microporous Membrane in a SMBR by the Immobilization of Poly(N-vinyl-2-pyrrolidone) on the Membrane Surface. Journal of Membrane Science 279 (2006) 148-155.
H.-Y. Yu, H. Lei, and Z.-K. Xu, Enhancement of the Flux for Polypropylene Hollow Fiber Membrane in a Submerged Membrane-Bioreactor by Surface Modification. Journal of Environmental Science 18 (2006) 1050-1055.
H.-Y. Yu, and Z.-K. Xu, Improve the Antifouling Characteristics of Polypropylene Microporous Membranes in a Submerged Membrane-Bioreactor by a Sequential Photoinduced Graft Polymerization of Acrylic Acid. International Symposium on Membrane Technologies for Water and Wastewater Treatment in Beijing, China, August (2005) 29-30.
H.-Y. Yu, Y.-J. Xie, M.-X. Hu, J.-L. Wang, S.-Y. Wang, and Z.-K. Xu, Surface modification of polypropylene microporous membrane to improve its antifouling property in MBR: CO2 plasma treatment. Journal of Membrane Science 254 (2005) 219-227.
H.-Y. Yu, M.-X. Hu, Z.-K. Xu, J.-L. Wang, and S.-Y. Wang, Surface modification of polypropylene microporous membranes to improve their antifouling property in MBR: NH3 plasma treatment. Separation and Purification Technology 45 (2005) 8-15.
H.-Y. Yu, M.-X. Hu, and Z.-K. Xu, Improvement of Surface Properties of Poly(propylene) Hollow Fiber Microporous Membranes by Plasma-Induced Tethering of Sugar Moieties. Plasma Processes and Polymers 2 (2005) 627-632.
H.-Y. Yu, J.-S. Gu, J. Du, and M.-Y. Guan, Study on the surface modification of nano-TiO2 by grafting PMMA/PBMA and its thermal stability. Chinese Journal of Polymer Science 23 (2005) 243-247.