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蓝伟光

教授 / 博士生导师

wglan@xmu.edu.cn

物理大楼 305

0592-2184026

个人主页：

研究领域石墨烯膜；膜分离科学与技术；膜材料开发与应用；环境工程与水处理

教育和工作经历

2022-至今厦门大学9159金沙游戏教授
2005-2022 厦门大学材料学院教授
1999-2005 厦门大学化学化工学院教授
1996-1998 厦门大学化学化工学院副教授
1985-1991 厦门水产学院教师

代表性文章或专著

1.Z. Chen, Y.H. Lan, Y.B. Hong, W.G. Lan, Review of 2D Graphitic Carbon Nitride-Based Membranes: Principles, Syntheses, and Applications, ACS Applied Nano Materials, 2022, 5 (9), 12343–12365.
2.L-S. Zhu, X-X. Guo, Y-Q. Chen, Z. Chen, Y.H. Lan, Y.B. Hong, W.G. Lan, Graphene Oxide Composite Membranes for Water Purification, ACS Applied Nano Materials, 2022, 5 (3), 3643-3653.
3.K.Q. Zheng, S.Q. Li, Zhou Chen*, Y.Q. Chen, Y.B. Hong* and W.G. Lan, highly stable graphene oxide composite nanofiltration membrane, Nanoscale, 2021, 13, 10061-10066.
4.S.J. Meng, M.M. Zhang, Meng Yao, Z.G. Qiu, Y.B. Hong, W.G. Lan, H.P. Xia, Xu Jin, Membrane Fouling and Performance of Flat Ceramic Membranes in the Application of Drinking Water Purification. Membrane Technologies and Water Treatment, 2019, 11 (12), 2606.
5.X.X. Xu, C.L. Zhou, B.R. Zeng, H.P. Xia, W.G. Lan, X.M. He, Structure and properties of polyamidoamine/polyacrylonitrile composite nanofiltration membrane prepared by interfacial polymerization, Separation and Purification Technology, 2012 (96): 229-236.
6.W. G. Lan, M. K. Wong, N. Chen, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 5, Three-level design and its application in microwave dissolution of biological samples. Analyst, 1995, 120 (4): 1115-1124.
7.W. G. Lan, K. K. Chee, M. K. Wong, H. K. Lee, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 4, Mixed-level design and its application to the high-performance liquid chromatographic determination of polycyclic aromatic hydrocarbons, Analyst, 1995, 120 (2): 281-288.
8.W. G. Lan, M. K. Wong, K. K. Chee, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 3, Five-level design and its application in polarographic reaction system for selenium determination. Analyst, 1994, 120: 273-280.
9.W. G. Lan, M. K. Wong, N. Chen, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 2, Four-level design and its application in microwave dissolution of biological samples. Analyst, 1994, 119 (8): 1669-1675.
10.W. G. Lan, M. K. Wong, N. Chen, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 1, Two-level design and its application in microwave dissolution of biological samples. Analyst, 1994, 119 (8): 1659-1667.

招生方向

材料工程；能源材料

姓名	蓝伟光	职称职务	教授 / 博士生导师
邮箱	wglan@xmu.edu.cn	办公室	物理大楼 305
电话	0592-2184026	个人主页
其他信息		研究方向岗位职责	石墨烯膜；膜分离科学与技术；膜材料开发与应用；环境工程与水处理
教育和工作经历	2022-至今厦门大学9159金沙游戏教授 2005-2022 厦门大学材料学院教授 1999-2005 厦门大学化学化工学院教授 1996-1998 厦门大学化学化工学院副教授 1985-1991 厦门水产学院教师	代表性文章或专著	1.Z. Chen, Y.H. Lan, Y.B. Hong, W.G. Lan, Review of 2D Graphitic Carbon Nitride-Based Membranes: Principles, Syntheses, and Applications, ACS Applied Nano Materials, 2022, 5 (9), 12343–12365. 2.L-S. Zhu, X-X. Guo, Y-Q. Chen, Z. Chen, Y.H. Lan, Y.B. Hong, W.G. Lan, Graphene Oxide Composite Membranes for Water Purification, ACS Applied Nano Materials, 2022, 5 (3), 3643-3653. 3.K.Q. Zheng, S.Q. Li, Zhou Chen, Y.Q. Chen, Y.B. Hong and W.G. Lan, highly stable graphene oxide composite nanofiltration membrane, Nanoscale, 2021, 13, 10061-10066. 4.S.J. Meng, M.M. Zhang, Meng Yao, Z.G. Qiu, Y.B. Hong, W.G. Lan, H.P. Xia, Xu Jin, Membrane Fouling and Performance of Flat Ceramic Membranes in the Application of Drinking Water Purification. Membrane Technologies and Water Treatment, 2019, 11 (12), 2606. 5.X.X. Xu, C.L. Zhou, B.R. Zeng, H.P. Xia, W.G. Lan, X.M. He, Structure and properties of polyamidoamine/polyacrylonitrile composite nanofiltration membrane prepared by interfacial polymerization, Separation and Purification Technology, 2012 (96): 229-236. 6.W. G. Lan, M. K. Wong, N. Chen, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 5, Three-level design and its application in microwave dissolution of biological samples. Analyst, 1995, 120 (4): 1115-1124. 7.W. G. Lan, K. K. Chee, M. K. Wong, H. K. Lee, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 4, Mixed-level design and its application to the high-performance liquid chromatographic determination of polycyclic aromatic hydrocarbons, Analyst, 1995, 120 (2): 281-288. 8.W. G. Lan, M. K. Wong, K. K. Chee, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 3, Five-level design and its application in polarographic reaction system for selenium determination. Analyst, 1994, 120: 273-280. 9.W. G. Lan, M. K. Wong, N. Chen, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 2, Four-level design and its application in microwave dissolution of biological samples. Analyst, 1994, 119 (8): 1669-1675. 10.W. G. Lan, M. K. Wong, N. Chen, Y. M. Sin, Orthogonal array design as a chemometric method for the optimization of analytical procedures, Part 1, Two-level design and its application in microwave dissolution of biological samples. Analyst, 1994, 119 (8): 1659-1667.
科研基金及项目		任教课程
招生方向	材料工程；能源材料	荣誉奖励