王碧佳,副教授。2002年于南京工业大学高分子系获学士学位,2010年毕业于美国内布拉斯加大学有机化学专业,获博士学位。2010年6月至2011年4月在美国内布拉斯加大学任职博士后。2012年2月,加入威廉希尔纺织化学与工程系。主持及参与国家自然科学基金、国际重点研发项目、工程院重点咨询项目、产学研基金以及校级基金等10余项。在Angew. Chem.,ACS Sustain. Chem. Eng., Chem. Eng. J., Carbohyd. Polymer.,Cellulose等SCI期刊发表研究论文100余篇,并积极与相关企业合作实现了部分成果的产业化和市场化。兼任国际标准化组织(ISO)天然纤维素纤维工作组(TC38SC23WG2)秘书。
研究方向
1.天然高分子功能化及其应用:
基于新型绿色纤维素溶剂磷酸,开展多来源纤维素(棉、木浆、竹浆、细菌纤维素等)、甲壳素、丝素等天然高分子材料的溶解再生、均相衍生化和复合材料制备研究,实现高性能再生纤维/膜/凝胶/多孔材料及其功能性复合物的制备;开发可用于原液着色和涂层整理的纤维素基大分子着色剂;利用再生天然高分子微纳凝胶的乳化性,以皮克林模板法制备纤维素基导热相变材料、光热相变储能材料等功能性复合材料。
2.生态染整技术:
针对国家双碳目标,研究典型印染企业水资源消耗特征及废水废水污染物组成及来源,开发无水/少水染色、高关注化学品替代、生物基印染助剂开发、多层级水资源高效利用等技术,构建印染废水近零排放低碳技术体系。
代表性论文
1.J. Li, Z. Hao, B. Wang, * , X. Feng, Z. Mao, X. Sui, * High-tensile chitin films regenerated from cryogenic aqueous phosphoric acid, Carbohydrate Polymers, 2023, 312, 120826
2.Y. Wang, F. Wang, L. Zhao, Z. Mao, X. Feng, X. Sui,* and B. Wang, * Shape-stable and Fire-resistant Hybrid Phase Change Materials with Enhanced Thermoconductivity for Battery Cooling Chemical Engineering Journal, 2022, 431,133983.
3.H. Su, B. Wang*, Z. Sun, S. Wang, X. Feng, Z. Mao, X. Sui*, High-tensile Regenerated Cellulose Films Enabled by Unexpected Enhancement of Cellulose Dissolution in Cryogenic Aqueous Phosphoric Acid Carbohydrate Polymers 2022, 277,118878.
4.S. Sun, Y. Deng, F. Sun, Z. Mao, X. Feng, F. Liu, X. Zhou, and B. Wang*, Engineering Regenerated Nanosilk to Efficiently Stabilize Pickering Emulsions, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022 635, 128065.
5.L. Hu, X. Li, L. Ding, L. Chen, X. Zhu, Z. Mao, X. Feng, X. Sui*, B. Wang*. Flexible Textiles with Polypyrrole Deposited Phase Change Microcapsules for Efficient Photothermal Energy Conversion and Storage. Solar Energy Materials & Solar Cells, 2021, 224, 110985.
6.L. Ding, L. Chen, L. Hu, X. Feng, Z. Mao, H. Xu, B. Wang*, X. Sui*. Self-Healing and Acidochromic Polyvinyl Alcohol Hydrogel Reinforced by Regenerated Cellulose. Carbohydrate Polymers, 2021, 255, 117331.
7.Maithy, O. M., Zhu, X., Korir, S. J., Feng, X., Sui, X.*, Wang, B.*, High-energy storage graphene oxide modified phase change microcapsules from regenerated chitin Pickering Emulsion for photothermal conversion. Sol Energy Mat Sol C, 2021, 222, 110924.
8.Zhu, X., Li, X., Shen, J., Wang, B.*, Mao, Z., Xu, H., Feng, X., Sui, X.* Stable microencapsulated phase change materials with ultrahigh payload for efficient cooling of mobile electronic devices. Energ Convers Manage, 2020, 223, 113478.
9.Yang, G., Wang, B.*, Cheng, H., Mao, Z., Xu, H., Zhong, Y., Feng, X., Yu, H.,* Sui, X.* Cellulosic scaffolds doped with boron nitride nanosheets for shape-stabilized phase change composites with enhanced thermal conductivity. Int J Biol Macromol, 2020, 148: 627-634.
10.Yang G, Zhao L, Shen C, Mao, Z., Xu, H., Feng, X., Wang, B.*, and Sui, X.*, Boron nitride microsheets bridged with reduced graphene oxide as scaffolds for multifunctional shape stabilized phase change materials. Solar Energy Materials and Solar Cells, 2020, 209, 110441.
11.Wang Y, Li, X., Shen, C., Mao, Z., Xu, H., Zhong, Y., Sui, X.*, Feng, X., and Wang, B*. Lignin assisted Pickering emulsion polymerization to microencapsulate 1-tetradecanol for thermal management.. International Journal of Biological Macromolecules, 2020 146: 1-8.
12.Ding, L., Li, X., Hu, L., Zhang, Y., Jiang, Y., Mao, Z., Xu, H., Wang, B.*, Feng, Xu., and Sui, X.*, A naked-eye detection polyvinyl alcohol/cellulose-based pH sensor for intelligent packaging.[J]. Carbohydrate Polymers, 2020, 233, 115859
13.Li, X., Ding, L., Zhang, Y., Wang, B.*, Jiang, Y., Feng, X., Mao, Z., and Sui, X.* Oil-in-water Pickering emulsions from three plant-derived regenerated celluloses[J]. Carbohydrate Polymers, 2019: 755-763.
14.Zhao, J., Ding, L., Sui, X.*, Mao, Z., Xu, H., Zhong, Y., Zhang. L., Chen, Z., and Wang, B.*, Bio-based polymer colorants from nonaqueous reactive dyeing of regenerated cellulose for plastics and textiles[J]. Carbohydrate Polymers, 2019: 734-741.
15.Wang B., Ren R., and Chen Z., Synthesis of cross-linked polylactide–poly(tetramethylene oxide) copolymers with enhanced toughness[J]. Polymer Bulletin, 2019, 76(3): 1531-1545.
16.Ding, L., Jiang, Y., Wang, B.*, Li, Y., Mao, Z., Xu, H., Zhong, Y., Zhang, L., and Sui, X.*, A waterborne bio-based polymer pigment: colored regenerated cellulose suspension from waste cotton fabrics. et al., Cellulose, 2018, 25(12): 7369-7379.
17.Zhao, J., Agaba, A., Sui, X., Mao, Z., Xu, H., Zhong, Y., Zhang, L. and Wang, B.*, et al., A heterogeneous binary solvent system for recyclable reactive dyeing of cotton fabrics. Cellulose, 2018, 25(12): 7381-7392.
18.Zhao, J., Zhou, Z., Ren, R., Wang B*, et al., Chitosan adsorbent reinforced with citric acid modified β-cyclodextrin for highly efficient removal of dyes from reactive dyeing effluents.[J] European Polymer Journal,2018,108, 11,212-218.
19.Agaba, A., Cheng, H., Zhao, J., Zhang, C., Tebyetekerwa, M., Rong, L., Sui, X.*, and Wang, B.*, et al , Precipitated silica agglomerates reinforced with cellulose nanofibrils as adsorbents for heavy metals.., [J] RSC Advances, 2018, 8, 33129-33137.
20. Heterogeneous Chemical Modification of Cotton Cellulose with Vinyl Sulfone Dyes in Non-nucleophilic Organic Solvents. Wang, B*., Ruan, X., Chen, L., Chen, J., & Yang, Y. (2014). Industrial & Engineering Chemistry Research. 53(41): 15802-15810.
联系方式
威廉希尔松江校区逸夫科技创新楼222室
bwang@dhu.edu.cn