Google Scholar Citation
Researcher ID: O-9640-2014
http://www.researcherid.com/rid/O-9640-2014

Subject: Chemistry; Polymer Science
ORCID: http://orcid.org/0000-0002-6478-4137
E-mail: yhy456@ahnu.edu.cn
Tel.: +86


功能高分子膜课题组：主要从事功能高分子膜(质子交换膜/膜传感器)制备，表面可控改性及应用，欢迎有兴趣同学报考本课题组硕/博士。
宇海银，男，教授，博士生导师。从事高分子功能膜研究。运用活性聚合与点击化学手段对高分子膜进行可控功能化修饰，研究膜结构与性能之间关系。将无机纳米粒子与高分子膜复合，研究复合膜结构性能。3 篇论文被Membrane Technology选为研究亮点，获2009 年教育部高校自然科学二等奖1项，2011 年安徽省科学技术三等奖1项。担任国际期刊Global J Environ Sci Technol编委，Lead Guest of Special Issue on Polymeric Membrane Science and Technology, International Journal of Polymer Science(http://www.hindawi.com/journals/ijps/si/365352/cfp/)，Haliyon编委会成员(http://www.heliyon.com/editorial-team/board/)，Chinese Journal of Engineering编委会成员(https://www.hindawi.com/journals/cje/editors/).
所受教育
? 1987.09-1991.07，济南大学（原山东建筑材料工业学院），高分子材料，工学学士
? 1997.09-200.05，合肥工业大学，材料学，工学硕士
? 2003.09-2006.09，浙江大学，高分子化学与物理，理学博士
职称职位
? 2000.05-2001.12，安徽师范大学化学与材料科学学院，助教；
? 2002.01-2006.06，安徽师范大学化学与材料科学学院，讲师；
? 2006.07-2009.11，安徽师范大学化学与材料科学学院，副教授；
? 2009.12-----至今，安徽师范大学化学与材料科学学院，教授；
? 2011.01，入选安徽省学术和技术带头人及后备人选；
? 2012.07，安徽师范大学博士生导师；
? 2012.08-2013.08，美国马里兰大学博士后研究员；
? 2014.09，江苏省创新创业人才(双创人才)，斯迪克新型材料(江苏)有限公司，泗洪。
主持项目
? 氧化石墨烯在芳香聚酰胺正渗透膜表面层层点击自组装及其性能研究(No.**)，2014.1-2017.12，国家自然科学基金。
? 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.**)，2009.1-2011.12，国家自然科学基金。
? 膜表面点击化学改性，安徽省学术和技术带头人及后备人选基金，2012。
研究领域
? 高分子-无机纳米功能复合材料
? 高分子功能膜
? 高分子材料改性
讲授课程
? 高分子物理
? 高分子化学
? 高分子材料成型加工(含成型机械及模具)
获奖情况
? 宇海银，顾家山，周瑾。高分子分离膜功能化、表面可控改性及性能研究(安徽省人民政府，证书号2011-3-R1)，安徽师范大学。安徽省科学技术三等奖，获奖时间2011.12.30；
? 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。教育部自然科学奖二等奖，获奖时间2009.1.20。
发表论文（2005年以来发表被SCI收录的论文）
[45] F. Sun, L.-L. Qin, J. Zhou, Y.-K. Wang, J.-Q. Rong, Y.-J. Chen, S. Ayaz, YU Hai-Yin*, L. Liu, Friedel-Crafts self-crosslinking of sulfonated poly(etheretherketone) composite proton exchange membrane doped with phosphotungstic acid and carbon-based nanomaterials for fuel cell applications, Journal of Membrane Science, 611 (2020). DOI: 10.1016/j.memsci.2020.118381
[44] Zhu, J.; Shang, Y.; Yu, Hai-Yin*; Li, N.; Ding, B.*, Shape-controllable Synthesis of Functional Nanomaterials on DNA Templates. Chemical Research in Chinese Universities 2020, 36, (2), 171-176. DOI: 10.1007/s40242-020-9035-3
[43] Zhou, J.; He, H.-L.; Sun, F.; Su, Y.; Yu, H.-Y.*; Gu, J.-S., Structural parameters reduction in polyamide forward osmosis membranes via click modification of the polysulfone support. Colloids and Surfaces a-Physicochemical and Engineering Aspects 2020, 585. DOI: 10.1016/j.colsurfa.2019.124082
[42] L. Zhang, J. Zhou, F. Sun, H.-Y. Yu*, J.-S. Gu, Amphiphilic Block Copolymer of Poly(dimethylsiloxane) and Methoxypolyethylene Glycols for High-Permeable Polysulfone Membrane Preparation, ACS Omega 4(8) (2019) 13052-13060.
[41] J. Zhou, Z. Ma, X. Hong, H.-M. Wu, S.-Y. Ma, Y. Li, D.-J. Chen*, H.-Y. Yu*, X.-J. Huang*, Top-Down Strategy of Implantable Biosensor Using Adaptable, Porous Hollow Fibrous Membrane, ACS Sensors 4(4) (2019) 931-937.
[40] Q. Chen, F. Sun, J. Zhou, Y. Lu, Y.-Y. Li, H.-Y. Yu*, J.-S. Gu, Chlorine-resistant and internal-concentration-polarization-mitigated polyamide membrane via tethering poly(ethylene glycol) methacrylate, Journal of Applied Polymer Science 136(20) (2019) 47406.
[39] Y. Xu*, S. Fu, F. Liu, H.-Y. Yu*, J. Gao*, Multi-stimuli-responsiveness of a novel polydiacetylene-based supramolecular gel, Soft Matter 14(39) (2018) 8044-8050.
[38] J.-J. Wu, J. Zhou*, J.-Q. Rong, Y. Lu, H. Dong, H.-Y. Yu*, J.-S. Gu, Grafting Branch Length and Density Dependent Performance of Zwitterionic Polymer Decorated Polypropylene Membrane, Chinese Journal of Polymer Science 36(4) (2018) 528-535.
[37] L.-L. Wang, J.-J. Wu, Z.-B. Zhang, J. Zhou, X.-C. He, H.-Y. Yu*, J.-S. Gu, Methoxypolyethylene glycol grafting on polypropylene membrane for enhanced antifouling characteristics – Effect of pendant length and grafting density, Separation and Purification Technology 164 (2016) 81-88.
[36] Z.-B. Zhang, J.-J. Wu, Y. Su, J. Zhou, Y. Gao, H.-Y. Yu*, J.-S. Gu, Layer-by-layer assembly of graphene oxide on polypropylene macroporous membranes via click chemistry to improve antibacterial and antifouling performance, Applied Surface Science, 332 (2015) 300-307.
[35] P.F. Zhan, Q. Jiang, Z.G. Wang, N. Li, H.-Y. Yu*, B.Q. Ding*, DNA Nanostructure-Based Imaging Probes and Drug Carriers, Chemmedchem, 9 (2014) 2013-2020.
[34] Y. Wang, L.-L. Wang, X.-C. He, Z.-J. Zhang, H.-Y. Yu*, J.-S. Gu, Integration of RAFT polymerization and click chemistry to fabricate PAMPS modified macroporous polypropylene membrane for protein fouling mitigation, Journal of Colloid and Interface Science, 435 (2014) 43-50.
[33] H.-Y. Yu, Y. Kang, Y. Liu, B. Mi*, Grafting polyzwitterions onto polyamide by click chemistry and nucleophilic substitution on nitrogen: A novel approach to enhance membrane fouling resistance, Journal of Membrane Science 449 (2014) 50-57.
[32] H.-Y. Yu*, L.S. Wan*, Q. Yang*, Polymeric Membrane Science and Technology, International Journal of Polymer Science, (2013).
[31] X.-M. Wu, L.-L. Wang, Y. Wang, J.-S. Gu, H.-Y. Yu*, Surface modification of polypropylene macroporous membrane by marrying RAFT polymerization with click chemistry, Journal of Membrane Science 421-422 (2012) 60-68.
[30] B. Hu, L. Wang, X.-M. Wu, S. Yang, J.-S. Gu, H.-Y. Yu*, Low protein fouling polypropylene membrane prepared by photoinduced reversible addition-fragmentation chain transfer polymerization, Journal of Applied Polymer Science 123 (2012) 3668-3674.
[29] S. Yang, J.-S. Gu, H.-Y. Yu*, J. Zhou, S.-F. Li, X.-M. Wu, L. Wang, Polypropylene membrane surface modification by RAFT grafting polymerization and TiO₂ photocatalysts immobilization for phenol decomposition in a photocatalytic membrane reactor, Separation and Purification Technology 83 (2011) 157-165.
[28] J. Zhou, W. Li, J.-S. Gu*, 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.
[27] J. Zhou, W. Li, J.-S. Gu, H.-Y. Yu*, Z.-Q. Tang, 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.
[26] H.-Y. Yu*, J. Zhou, J.-S. Gu, S. Yang, Manipulating membrane permeability and protein rejection of UV-modified polypropylene macroporous membrane, Journal of Membrane Science 364 (2010) 203-210.
[25] Research Trends, Membrane Technology 2010 (2010) 8-11.
[24] H.-Y. Yu*, W. Li, J. Zhou, J.-S. Gu, L. Huang, Z.-Q. Tang, 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.
[23] Z.-Q. Tang, W. Li, J. Zhou, H.-Y. Yu*, L. Huang, M.-G. Yan, J.-S. Gu, 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.
[22] Z.-Q. Tang, W. Li, L.-Q. Liu, L. Huang, J. Zhou, 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) 419-422.
[21] X.-C. He, L.-Q. Liu, Z.-Q. Tang, M.-G. Yan, J.-S. Gu, X.-W. Wei, H.-Y. Yu*, Reducing protein fouling of polypropylene microporous membrane by CO₂ plasma surface modification, Desalination 44 (2009) 80-89.
[20] J.-S. Gu, H.-Y. Yu*, L. Huang, Z.-Q. Tang, W. Li, J. Zhou, M.-G. Yan, 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.
[19] H.-Y. Yu*, Z.-Q. Tang, L. Huang, G. Cheng, W. Li, J. Zhou, M.-G. Yan, J.-S. Gu, 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.
[18] H.-Y. Yu*, L.-Q. Liu, Z.-Q. Tang, M.-G. Yan, J.-S. Gu, 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.
[17] H.-Y. Yu*, L.-Q. Liu, Z.-Q. Tang, M.-G. Yan, J.-S. Gu, X.-W. Wei, Mitigated membrane fouling in an SMBR by surface modification, Journal of Membrane Science 310 (2008) 409-417.
[16] H.-Y. Yu*, X.-C. He, L.-Q. Liu, J.-S. Gu, X.-W. Wei, Surface Modification of Poly(propylene) Microporous Membrane to Improve Its Antifouling Characteristics in an SMBR: O₂Plasma Treatment, Plasma Processes and Polymers 5 (2008) 84-91.
[15] M.-G. Yan, L.-Q. Liu, Z.-Q. Tang, L. Huang, W. Li, J. Zhou, J.-S. Gu, X.-W. Wei, H.-Y. Yu*, Plasma surface modification of polypropylene microfiltration membranes and fouling by BSA dispersion, Chemical Engineering Journal 145 (2008) 218-224.
[14] H. Lei, H.-Y. Yu, Y. Lu, X.-L. Lu, Z.-K. Xu*, A facile approach for the surface modification of poly(vinylidene fluoride) membrane via surface-initiated atom transfer radical polymerization, Chinese Journal of Polymer Science 26 (2008) 105-110.
[13] H.-Y. Yu, Z.-K. Xu*, H. Lei, M.-X. Hu, Q. Yang, 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.
[12] H.-Y. Yu*, X.-C. He, L.-Q. Liu, J.-S. Gu, 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.
[11] H.-Y. Yu*, J.-M. He, L.-Q. Liu, X.-C. He, J.-S. Gu, X.-W. Wei, Photoinduced graft polymerization to improve antifouling characteristics of an SMBR, Journal of Membrane Science 302 (2007) 235-242.
[10] Y.-J. Xie, H.-Y. Yu, S.-Y. Wang, Z.-K. Xu*, Improvement of antifouling characteristics in a bioreactor of polypropylene microporous membrane by the adsorption of Tween 20, Journal of Environmental Sciences 19 (2007) 1461-1465.
[9] Research trends, Membrane Technology, 2006 (2006) 11-12.
[8] H.-Y. Yu, Z.-K. Xu*, Q. Yang, M.-X. Hu, 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.
[7] H.-Y. Yu, Z.-K. Xu*, Y.-J. Xie, Z.-M. Liu, 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.
[6] H.-Y. Yu, H. Lei, 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.
[5] Y.-J. Xie, H.-Y. Yu, Z.-K. Xu*, Surface Modification of Polypropylene Microporous Membranes by the Adsorption of Non-ionic Surfactants, Chinese Journal of Polymer Science 24 (2006) 421-429.
[4] H.-Y. Yu, Y.-J. Xie, M.-X. Hu, J.-L. Wang, S.-Y. Wang, 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.
[3] Research trends, Membrane Technology, 2005 (2005) 10-12.
[2] H.-Y. Yu, M.-X. Hu, Z.-K. Xu*, J.-L. Wang, 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.
[1] H.-Y. Yu, M.-X. Hu, 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.
专著
[1]. Zhu-Fang HU, Jin ZHOU, Hai-Yin YU*. Click Chemistry: Approaches, Applications and Challenges (Chapter 8, Click Chemistry for Membrane Preparation and Surface Modification). Nova Science Publisher, Inc., New York. 10000 words, P211-234. ISBN: 37/ebook, 39/hardcover), Editors: YU CHEN AND ZONG-RUI TONG, 2017.
[2]. Sher Ayaz, Hai-Yin YU*. Graphene Oxide: Advances in Research and Applications (Chapter 6, Graphene Oxide: Advances in Research and Applications of Membranes). Nova Science Publishers, Inc., New York. 20000 words. P119-136, ISBN: 978-1-53614-168-9/ISBN: 978-1-53614-169-6 (ebook), Editors: Ajay Kumar Mishra and Deepak Pathania, 2018.
学术交流
新型膜材料在资源与环境工程中的应用江苏理工学院，2014-10-24.(http://www.jstu.edu.cn/s/3/t/51/99/17/info39191.htm).
专 利
[1]宇海银,武芳,顾家山. 一种改性芳香聚酰胺复合膜活性层的方法及其运用[P]. 安徽省：CNA,2019-08-06.
[2]宇海银,孙飞,顾家山. 一种新型磺化聚醚醚酮/磺化氧化石墨烯复合质子交换膜的制备方法[P]. 安徽省：CNA,2019-03-29.
[3]宇海银,陈清,顾家山. 一种芳香聚酰胺复合正渗透膜抗氯抗污染改性方法[P]. 安徽：CNA,2017-02-22.
[4]金闯,吴咤,朱先磊,宇海银,葛志远. 一种石墨烯/聚酰亚胺共聚导热膜的制备方法[P]. 江苏：CNA,2016-11-09.
[5]金闯,吴咤,朱先磊,宇海银,葛志远. 一种石墨烯/聚酰亚胺复合导热膜的制备方法[P]. 江苏：CNA,2016-10-26.
[6]宇海银,苏雨,顾家山. 一种芳香聚酰胺复合正渗透薄膜的制备方法[P]. 安徽：CNA,2015-10-14.
[7]宇海银,顾家山,张振北. 一种层层点击键合自组装氧化石墨烯聚烯烃分离膜及其制备方法[P]. 安徽：CNA,2014-11-12.
[8]吴孝兵,李媛媛,王亮,宇海银,余本付,王朝林. 鳄油乳化技术[P]. 安徽：CNA,2012-02-08.
[9]宇海银,王亮,李媛媛,吴孝兵,余本付,王朝林. 鳄鱼油除腥方法[P]. 安徽：CNA,2012-01-04.
研究生培养情况
序号
姓名
类别
年级
就业单位
备注

1
刘兰勤
硕士
2005
怀远三中
魏先文教授共同指导

2
唐照奇
硕士
2006

魏先文教授共同指导

3
黄磊
硕士
2006
皖西学院
杨高升教授共同指导

4
李伟
硕士
2007
上海药明康德


5
胡兵
硕士
2007
池州学院
商永嘉教授共同指导

6
周瑾
硕士
2008
池州学院


7
杨颂
硕士
2009
肥东锦弘中学


8
吴秀敏
硕士
2010
乐清市虹桥镇第一小学


9
王亮
硕士
2010
武汉艾科滤膜技术有限公司


10
王云
硕士
2011
合肥大地学校


11
王莉莉
硕士
2011
创业


12
湛鹏飞
硕士
2011
国家纳米科学中心/博士生
德国马普研究所博士后

13
吴菁菁
硕士
2012
黄山市休宁县璜尖乡人民政府


14
张振北
硕士
2012
国信知识产权(杭州)有限公司


15
苏雨
硕士
2013
安庆计量测试所


16
陈清
硕士
2014
华东师范大学
博士

17
吴咤
硕士
2014
芜湖天弋能源科技有限公司


18
胡祝芳
硕士
2015
复旦大学
博士

19
张雷
硕士
2015
海螺塑料研究所


20
周瑾
博士
2016
在读
池州学院

21
Sher Ayaz
博士
2016
安师大博士后
From Pakistan

22
付素雅
硕士
2016
安徽元琛环保科技股份有限公司
许洋洋老师共同指导

23
武芳
硕士
2016
北京师达擎天环保科技有限公司


24
朱劲劲
硕士
2017
在读


25
孙飞
硕士
2017
在读


26
荣菁秋
硕士
2018
在读


27
汪一坤
硕士
2018
在读


28 刘思远 硕士 2018 在读

29 陈亚军 硕士 2019 在读

30
Sher Ayaz
博士后
2020
在读
From Pakistan/生科院阚显照老师共同指导