白卫斌，副教授/硕士生导师。2006年于武汉大学有机化学专业并获理学博士学位。近年来以第一作者或通讯作者在Separation and Purifification Technology，Dyes and Pigments，Progress in Organic Coatings，Reactive & Functional Polymers，European Polymer Journal，Advanced Materials Interfaces等杂志期刊发表SCI学术论文22篇，授权中国发明专利9件。

学院个人主页：https://chem.fjnu.edu.cn/2f/66/c7566a143206/page.htm

Researchgate：https://www.researchgate.net/profile/Weibin-Bai

研究方向：

(1) 天然产物（生漆）的性能及应用；

(2) 有机及聚合物荧光材料的合成及应用研究；

(3) 共轭聚合物的自组装及其形貌的研究。

(4) 海洋防腐涂料的研发

科研项目：

1．福建省自然科学基金面上项目，2019J01262, 自组装构建四苯乙烯基共轭聚合物多级微纳米结构及其光电性能研究, 10万, 2019/7-2022/6, 已结题, 主持;

2．福建省自然科学基金面上项目, 2015J01188, 固相氧化偶联法合成芳香类共轭聚合物及其性能的研究, 6万, 2015/4-2018/4, 已结题, 主持;

3．福建省自然科学基金青年创新项目, 2010J05108, 盘状共轭化合物的合成及其高分子化的研究, 3万, 2010/6-2013/6, 已结题, 主持.

论文著作：

1. Chen L., Chen K.Z., Yao R.J., Zeng R.P., Lin Y.C., Jian R.K., Bai W.B.* From blue fluorescence to red fluorescence: Solid-state oxidative coupling polymerization of fluorene and anthracene or naphthalene, Materials Chemistry and Physics, 2022, 285, 126083.

2. Lin H.M., Chen K.H., Zheng S.J., Zeng R.P., Lin Y.C., Jian R.K., Bai W.B.*, Xu Y.L. Facile fabrication of natural superhydrophobic eleostearic acid-SiO2@cotton fabric for efficient separation of oil/water mixtures and emulsions, Sustainable Materials and Technologies, 2022, 32, e00418.

3. Chen Y.X., Bai W.B.*, Chen J.P., et al. In-situ intercalation of montmorillonite/urushiol titanium polymer nanocomposite for anti-corrosion and anti-aging of epoxy coatings, Progress in Organic Coatings, 2022, 165, 106738.

4. Zeng R.P., Jiang H., Lai N.S., Yang H.P., Xu Y.L., Bai W.B.* Preparation and application of microporous carbons as excellent adsorbents for reversible iodine capture and efficient removal of dye, Diamond and Related Materials, 2021, 120, 108718.

5. Zheng B.B., Bai W.B.*, Chen J.P., et al. Inorganic salts as effective additive for adjusting the curing of natural oriental lacquer, Progress in Organic Coatings, 2021, 161, 106494.

6. Bai W.B.*, Lin H.M., Chen K.H., et al. Robust and Durable Superhydrophobic Polythiophene/SiO2 Coated Cotton Fabric for Versatile Oil-Water Separation, Advanced Materials Interfaces, 2021, 8, 2100725.

7. Bai W.B.*, Lin H.M., Chen K.H., et al. Eco-friendly stable cardanol-based benzoxazine modifified superhydrophobic cotton fabrics for oil-water separation, Separation and Purifification Technology, 2020, 253, 117545.

8. Bai W.B.*, Chen K.H., Chen J.P., et al. Natural Highly-hydrophobic Urushiol@TiO2 Coated Cotton Fabric for Effective Oil-Water Separation in Highly Acidic Alkaline and Salty Environment, Separation and Purification Technology, 2020, 253, 117495.

9. Bai W.B.*, Tian X., Yao R.J., et al. Preparation of nano-TiO2@polyflfluorene composite particles for the photocatalytic degradation of organic pollutants under sunlight, Solar Energy, 2020, 196, 616-624.

10. Tian X., Guan M.Q., Xiao X.Q., Chen K.H., Xu Y.L., Bai W.B.*, Lin J.H. Ordered porous conjugated poly(p-phenylene)s fifilms self-assembled through alcohol-controlled breath fifigure method, Polymer Testing, 2019,73, 389-394.

11. Bai W.B.*, Xu J., Guan M.Q., et al. Preparation of superhydrophobic polyimide microstructural layer on copper mesh for oil/water separation, Journal of the Taiwan Institute of Chemical Engineers, 2019, 95, 71-77.

12. Jiang H., Lai N.S., Tang J.*, Tian X., Wei F.F., Bai W.B.*, Xu Y.L. Effect of photo-oxidation on the emissive properties of truxene, Journal of Photochemistry & Photobiology A: Chemistry, 2019, 369, 195-201.

13. Bai W.B.*, Guan M.Q., Lai N.S., et al. Superhydrophobic paper from conjugated poly(p-phenylene)s: Self-assembly and separation of oil/water mixture, Materials Chemistry and Physics, 2018, 216, 230-236.

14. Bai W.B.*, Lai N.S., Guan M.Q., et al. Petal-effect superhydrophobic surface self-assembled from poly(p-phenylene)s, European Polymer Journal, 2018, 101, 12-17.

15. Bai W.B.*, Yao R.J., Tian X., et al. Sunlight highly photoactive TiO2@poly-p-phenylene composite microspheres for malachite green degradation, Journal of the Taiwan Institute of Chemical Engineers, 2018, 87, 112-116.

16. Bai W.B.*, Yao R.J., Guan M.Q., et al. Concentration-induced discoloration properties of poly (alkoxynaphthalene)s synthesized by solid-state oxidative coupling polymerization, European Polymer Journal, 2017, 95, 105-118.

17. Bai W.B.*, Guan M.Q., Shang X.H., et al. Photophysical properties of poly(phenylene-co-fluorene) synthesized via solid-state oxidative coupling polymerization, Dyes and Pigments, 2018, 148, 359-367.

18. Bai W.B.*, Shang X.H., Wu C.X., et al. Polymeric morphologies and fluorescence of poly(p-phenylene) films by self-assembly, Synthetic Metals, 2017, 223, 58-66.

19. Bai W.B.*, Wu C.X., Shang X.H., et al. Self-assembly of poly(p-phenylene)-based flflower-like 3D micro-nanostructures, Reactive and Functional Polymers, 2016,101, 75-81.

20. Bai W.B.*, Wu C.X., Shang X.H., et al. Precipitation and sol formation from poly(p-phenylene)s solutions by spectroscopic study, European Polymer Journal, 2015, 70 , 221-231.

21. Bai W.B.*, Cai L.F., Zhuo D.X., et al. Resurrection of dead lacquer—Cupric potassium chloride dihydrate (K2CuCl4·2H2O) used as the mimic laccase. Progress in Organic Coatings 77(2):431-438

22. Bai W.B.*, Cai L.F., Wu C.X., et al. Alcohothermal synthesis of flower-like ZnS nano-microstructures with high visible light photocatalytic activity. Materials Letters 124:177-180

授权的发明专利：

1. 白卫斌, 陈坤辉, 林海门, 徐艳莲. 一种油水分离膜的制备方法, 2020.12.18, ZL202010736455.5.

2. 白卫斌, 陈坤辉, 徐艳莲, 林金火. 一种天然高疏水性棉织物的制备方法, 2020.04.17, ZL201911220817.9.

3. 白卫斌, 陈坤辉, 徐艳莲. 一种油水分离膜的制备方法, 2019.12.03, ZL201910742691.5.

4. 白卫斌, 徐杰, 官美琴, 徐艳莲, 林金火. 一种漆酚油水分离膜的制备方法,
2019.01.18, ZL201810952246.7.

5. 白卫斌, 田肖, 姚日进, 徐艳莲, 林金火. 一种核壳型复合微纳米颗粒及其制备方法, 2018.12.2, ZL201810641804.8.

6. 白卫斌, 官美琴, 徐杰, 徐艳莲. 聚酰亚胺油水分离膜的制备方法, 2018.12.14, ZL201810713360.4.

7. 白卫斌, 徐杰, 徐艳莲. 一种油水分离膜的制备方法, 2018.11.06, ZL201810713368.0.

8. 白卫斌, 姚日进, 官美琴, 徐艳莲, 林金火. 一种聚对苯/TiO2复合微球及其制备方法, 2018.06.08, ZL201711286910.0.

9. 白卫斌, 官美琴, 商贤火, 徐艳莲, 林金火. 一种油水分离膜的制备方法, 2017.08.08, ZL201710388767.X.

代表性工作介绍：

（1）共轭聚合物的固相法合成及其自组装

通过价廉的催化剂在常温下，机械研磨激发聚合反应，制备共轭聚合物，发开具有优异性能的发光材料，并对其进行自组装建构具有不同形貌的微纳米结构，应用于超疏水表面的构建，油水分离，离子检测以及有机蒸气的监测。

（2）天然产物的表面改性及其应用

对生漆中主要成分漆酚，腰果壳液中主要成分腰果酚，桐油等一系列天然产物对常见的织物材料进行表面改性，制备具有超疏水性能的织物，从而应用于自清洁、油水分离、以及海水淡化等应用。