汤永健

职称：特聘副研究员，硕士生导师

地址：华东理工大学实验16楼215室

电话：18818209440

电子邮件：tangyongjian@ecust.edu.cn

教育背景：

2008.9-2012.6 南京工业大学化工学院本科

2012.9-2017.6 华东理工大学化工学院硕博连读

工作经历：

2017.05-2019.05 华东理工大学化工学院师资博士后

2019.06-至今华东理工大学化工学院特聘副研究员

学术兼职：

中国海水淡化与水再利用学会青年专家委员会委员；Journal of Membrane Science, Separation and Purification Technology, Environmental Science & Technology, ACS Applied Materials & Interfaces等期刊审稿人。

科研项目：

1.国家自然科学基金青年基金，“含氟聚酰胺纳滤膜微观结构调控及分子模拟的研究”，2019-2021，25万，主持

2.教育部基本科研业务费，“3D立体微结构纳滤膜构建、调控及性能”，2018-2019，16万，主持

3.华东理工大学科研启动基金，“高渗透选择性纳滤膜设计及性能调控”，2019-2022，50万，主持

4.宝山钢铁股份有限公司，“含油废水高效回用技术开发研究”，2020-2022，21.6万，主持

5.宝武水务科技有限公司，“硅钢废水零排放技术研究”，2022，29.2万，主持

6.企业委托项目，“分子筛在液压油除水过程中的应用与性能评估”，2020，22万，主持

7.企业委托项目，“低成本锂电池回收工艺研发与膜元件设计软件升级技术”，2022-2024，80万，主持

8.企业委托项目，“药物合成过程溶剂回收与纯化、精制技术（研发级别）”，2021-2022，30万，主持

研究方向：

1.分离膜新型制备方法及其应用

2.特种分离膜结构调控与规模化制备

3.废水/废溶剂/退役锂电池资源化利用

主要学术成果：

迄今为止发表SCI论文30余篇，其中第一作者/通讯作者23篇，包括国际一流期刊Journal of Membrane Science（12篇），Industrial and Engineering Chemistry Research（4篇）, ACS Applied Materials and Interfaces，Separation and Purification Technology等。获授权中国发明专利2项，参编《膜技术手册》（第二版）。

[1] Y.-J. Tang, Z.-L. Xu*, S.-M. Xue, Y.-M. Wei, H. Yang, A chlorine-tolerant nanofiltration membrane prepared by the mixed diamine monomers of PIP and BHTTM, Journal of Membrane Science, 498 (2016) 374-384.

[2] Y.-J. Tang, L.-J. Wang, Z.-L. Xu*, Y.-M. Wei, H. Yang, Novel high-flux thin film composite nanofiltration membranes fabricated by the NaClO pre-oxidation of the mixed diamine monomers of PIP and BHTTM in the aqueous phase solution, Journal of Membrane Science, 502 (2016) 106-115.

[3] Y.-J. Tang, Z.-L. Xu*, S.-M. Xue, Y.-M. Wei, H. Yang, Tailoring the polyester/polyamide backbone stiffness for the fabrication of high performance nanofiltration membrane, Journal of Membrane Science, 541 (2017) 483-491.

[4] Y.-J. Tang, Z.-L. Xu*, S.-M. Xue, Y.-M. Wei, H. Yang, Improving the chlorine-tolerant ability of polypiperazine-amide nanofiltration membrane by adding NH2-PEG-NH2 in the aqueous phase, Journal of Membrane Science, 538 (2017) 9-17.

[5] Y.-J. Tang, B.-J. Shen, B.-Q. Huang, Z.-M. Zhan, Z.-L. Xu*, High permselectivity thin-film composite nanofiltration membranes with 3D microstructure fabricated by incorporation of beta cyclodextrin, Separation and Purification Technology, 227 (2019) 115718.

[6] Z.-M. Zhan, Z.-L. Xu, K.-K. Zhu, Y.-J. Tang*, How to understand the effects of heat curing conditions on the morphology and performance of polypiperazine-amide NF membrane, Journal of Membrane Science, (2019) 117640.

[7] B.-Q. Huang, Y.-J. Tang*, Z.-X. Zeng, Z.-L. Xu*, Microwave heating assistant preparation of high permselectivity polypiperazine-amide nanofiltration membrane during the interfacial polymerization process with low monomer concentration, Journal of Membrane Science, 596 (2020) 117718.

[8] B.-Q. Huang, Y.-J. Tang*, Z.-X. Zeng, S.-M. Xue, C.-H. Ji, Z.-L. Xu*, High-Performance Zwitterionic Nanofiltration Membranes Fabricated via Microwave-Assisted Grafting of Betaine, ACS Applied Materials & Interfaces, 12 (2020) 35523-35531.

[9] Z.-M. Zhan, Z.-L. Xu, K.-K. Zhu, S.-M. Xue, C.-H. Ji, B.-Q. Huang, C.Y. Tang, Y.-J. Tang*, Superior nanofiltration membranes with gradient cross-linked selective layer fabricated via controlled hydrolysis, Journal of Membrane Science, 604 (2020) 118067.

[10] L.-Q. Li, Z.-M. Zhan, B.-Q. Huang, S.-M. Xue, C.-H. Ji, R.-Z. Wang, Y.-J. Tang*, Z.-L. Xu*, RO membrane fabricated via a facile modified heat-treating strategy for high-flux desalination, Journal of Membrane Science, 614 (2020) 118498.

[11] Z.-M. Zhan, X. Zhang, Y.-X. Fang, Y.-J. Tang*, K.-K. Zhu, X.-H. Ma, Z.-L. Xu*, Polyamide Nanofiltration Membranes with Enhanced Desalination and Antifouling Performance Enabled by Surface Grafting Polyquaternium-7, Industrial & Engineering Chemistry Research, 60 (2021) 14297-14306.

[12] Z.-M. Zhan, Y.-J. Tang*, K.-K. Zhu, S.-M. Xue, C.-H. Ji, C.Y. Tang, Z.-L. Xu*, Coupling heat curing and surface modification for the fabrication of high permselectivity polyamide nanofiltration membranes, Journal of Membrane Science, 623 (2021) 119073.

[13] B.-Q. Huang, Y.-J. Tang*, A.-R. Gao, Z.-X. Zeng, S.-M. Xue, C.-H. Ji, C.Y. Tang, Z.-L. Xu*, Dually charged polyamide nanofiltration membranes fabricated by microwave-assisted grafting for heavy metals removal, Journal of Membrane Science, 640 (2021) 119834.

[14] B.-Q. Huang, Y.-J. Tang*, Z.-X. Zeng, S.-M. Xue, S.-Q. Li, Y.-R. Wang, E.-C. Li, C.Y. Tang, Z.-L. Xu*, Enhancing nanofiltration performance for antibiotics/NaCl separation via water activation before microwave heating, Journal of Membrane Science, 629 (2021) 119285.

[15] Li, L.-Q, Liu, X.-H, Tang, Y.-J*, Xu, Z.-L*, How Does Alkali Etching Work on the Polyamide Membrane to Obtain an m-Phenylenediamine-Based NF Membrane?Industrial & Engineering Chemistry Research, 61 (2022)5536 - 5546.

[16] Zhu, Q.-Y, Wu, L.-K, Li, L.-Q, Xu, Z.-L, Tang, Y.-J*,Novel Insight on the Effect of the Monomer Concentration on the Polypiperazine-Amide Nanofiltration Membrane, Industrial & Engineering Chemistry Research, 61 (2022)5843 - 5852.

[17]Li, L.-Q, Tang, Y.-J*, Xu, Z.-L*.Can the NF membrane directly obtained by the interfacial polymerization of MPD and TMC? Journal of Membrane Science, 656 (2022) 120618.

[18]Liu-Kun Wu, Qiu-Yu Zhu, Lan-Qian Li, Zhen-Liang Xu, Shuang-Mei Xue, Chen-Hao Ji, Chuyang Y. Tang, Liwei Zhuang, Yong-Jian Tang*, Exploration of Permeation Resistance Change of the Polyamide Nanofiltration Membrane during Heat Curing by Using Organic Molecules as Functional Fillers, Industrial & Engineering Chemistry Research, 2022https://doi.org/10.1021/acs.iecr.2c02553.