王建黎科研成果
发布日期:2024-04-27 专利申请、商标注册、软件著作权、资质办理快速响应 微信:543646
姓名 | 王建黎 | 性别 | |
学校 | 浙江工业大学 | 部门 | 化学工程学院 |
学位 | 博士 | 学历 | |
职称 | 教授 | 联系方式 | 化工3号楼203室 |
邮箱 | wangjl@zjut.edu.cn | ||
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个人简介 主持和完成国家自然科学基金面上项目(2项)、科技部国际合作专项(2项)、教育部留学回国启动基金(1项)、浙江省科技计划重点项目(1项)、浙江省自然科学基金(3项)和企业委托(10余项)等科研项目,合作出版高分子膜分离专著一部。在生物柴油生产关键设备产业化技术、丙三醇(甘油)的化学转化和分离与电池用隔膜材料、纳米磁性高分子催化剂等方面取得了一些创新性研究成果。其中生物柴油生产新技术被鉴定为国际先进。开发的高孔隙低流阻工业及民用气体除尘装置核心高分子单元净化单元的生产技术已在企业实现批量生产;亲水化磺化聚醚砜膜生产技术实现产业化;大规模均粒离子交换树脂的制备技术、高性能不对称聚乙烯中空纤维膜技术、管式复合膜制备技术、亲水性血液检测培养瓶和环氧乙烷检测试纸制备技术均达到了工业化生产水平,创造显著的经济效益和社会效益。首次构建并合成一种具有酸/碱结构的含苯并咪唑的导电聚芳醚酮,在此基础上制备了一系列的耐热抗氧化质子交换膜。发表研究论文100余篇;授权中国发明专利30余件;获浙江省科技进步一、三等奖各1次,浙江省高校科研一和三等奖各1次。原创性工作(部分):1、采用单体优先设计的策略,合成并制备了主链或者侧链含苯并咪唑结构的聚芳醚酮(砜)及其离子聚合物,构建了具有高阻醇、高阻钒(离子)、高热稳定性、高导电性能的离子聚合物膜。(2004)2、实现了磺化聚(醚)砜可控制备产业化,成功应用本体亲水、高通量、抗污染、抗蛋白吸附的生物医用膜及水质净化膜领域。(2015)3、设计和合成了一种具有多重刺激响应能力的磁性纳米催化剂,并成功构建了醇的高效高选择性绿色催化氧化Pickering新体系。(2011)4、构建了一种有机碱或者酶固载的相界面催化剂,实现了酯交换法制备生物柴油的绿色(静态)制备。(2017)5、采用共混策略制备了本体亲水的聚偏氟乙烯(PVDF)超微滤膜。(2007)6、原创了可控、高实现度一种大孔(多孔)水凝胶的合成新方法。(2021)7、超声激励或者水力空化策略,强化醇/油两相酯交换反应制备生物柴油(2006)8、成功开发出适用于Car-T细胞培养用高性能中空纤维膜(2022)学习和工作经历:1990年9月至1994年7月,南昌大学(江西大学),化学系,有机合成专业,获学士学位(李新生教授);1995年9月至1998年7月,浙江大学(杭州大学),化学系,高分子化学与物理专业,获硕士学位(范宏教授);1998年9月至2002年2月,浙江大学,高分子系,高分子化学与物理专业,获博士学位(徐又一教授、徐志康教授);2001年12月入职 浙江工业大学化学工程与材料学院;2002年5月至2003年6月,韩国国立全北大学博士后(李明勋教授);2002年9月至2008年8月,浙江工业大学化学工程与材料学院(副教授)2006年3月至2007年2月,加拿大劳伦森大学博士后(叶志斌教授);2008年9月至今 浙江工业大学化学工程学院(教授)2014年6月至2014年11月,美国俄亥俄洲立大学高级访问学者(何文寿教授)。学科专业领域:(1)聚合反应工程、高分子化学、高分子物理(2)聚合物材料的精准加工(3)分离膜材料与膜分离技术(4)Pickering催化剂与高内相材料(5)生物质燃料、天然高分子材料 教学与课程 主讲课程:(1)高分子化学(2)碳排放与控制:概念、技术及可再生资源(2)生物质化学与工艺学(3)水处理技术(4)界面科学与技术(研)(5)现代分离技术(研)(6)生物质资源与产品链(博)(7)面向生物与环保的膜分离实验(研) 育人成果 培养硕士、博士研究生生47名,其中博士毕业生8名。 科研成果 近五年发表的论文:Mohamad A.; Yu, Z.; Tao, Z.; Zhang, T.; Wang, L.; He, C.; Zhang, H.*; Wang, J.*, TEMPO-Grafted Polystyrene/Polymethacrylate Organosiloxane Janus Nanohybrids as Efficient Pickering Interfacial Catalyst for Selective Aerobic Oxidation of Cinnamyl Alcohol. ACS Applied Materials & Interfaces , 2024. Wang, L.; Mohamad A.; Yu, S.; Liang, S.; Huang, Q.; Zhang, H.; Zhu, L.; Wang, J.*, Dumbbell-shaped polymeric nanoparticles with one-side anchored Pd-clusters for efficient catalytic hydrogenation at biphasic interfaces. Journal of Catalysis, 2024. 432, 115444.Zhang, H.; Wang, X.; Ai, N.; Wang, J.*, Highly luminescent and stable CsPbBr3 perovskite nanocrystals coated with polyethersulfone for white light‐emitting diode applications. Luminescence, 2024. 39(4).Ding, H.; Ge, J.; Zhang, T.; He, C.; Zhang, H.; Mohamad, A.; Wang, J. *, Thermally stable poly-aromatic solid electrolyte coated polyethylene membrane as high-performance lithium-ion battery separator. Journal of Power Sources, 2024. 602, 234355.Zou, S.; Zhang, H.; Wang, J.*, Ultrasound-assisted Pickering Interfacial Catalysis for Transesterification: Optimization of Biodiesel Yield by Response Surface Methodology. Journal of Oleo Science, 2023, 72 (2), 233-243.Wang, H.; Wang, H.; Sun, R.; Yao, L.; Zuo, H.; Ruan, F.; Feng, Q.; Wang, J.*, Preparation of hierarchical micro-meso porous carbon and carbon nanofiber from polyacrylonitrile/polysulfone polymer via one-step carbonization for supercapacitor electrodes. Electrochimica Acta, 2023, 441.Ahmed, S.; Tao, Z.; Zhang, H.; Hassan, M.; Ahmed, N.; Javid, M. T.; Wang, J.*, Review on Chitosan and Two-Dimensional MoS2-Based Proton Exchange Membrane for Fuel Cell Application: Advances and Perspectives. Energy & Fuels, 2023.Ahmed, S.; Tao, Z.; Zhang, H.; Ahmed, N.; Gulzar, H.; Wang, J.*, Tuning the Performance of Nanofiller Reinforced Phosphorylated Chitosan-Based Proton Exchange Membrane. Journal of the Electrochemical Society, 2023, 170 (2).Zhang, H.; Mao, Y.; Xu, J.; Li, S.; Guo, F.; Zhu, L.; Wang, J.*; Wu, Y.*, Methylthiophene terminated D-pi-D molecular semiconductors as multifunctional interfacial materials for high performance perovskite solar cells. Journal of Materials Chemistry C, 2022, 10 (5), 1862-1869.Wang, J.; Cao, W.; Wang, J.; Zhu, L., A Novel Spherical Crystallization Method Using Pickering Emulsions. Journal of Pharmaceutical Sciences, 2022, 111 (6), 1625-1632.Mao, Y.; Zhang, H.; Ahmed, S.; Li, S.; Zhang, S.; Wang, J.*, Efficient and continuous chemical conversion in a thin membrane comprising three-dimensional network trapping Ag nanoparticles. Applied Catalysis B-Environmental, 2022, 314.Li, S.; Liu, X.; Zhang, H.; Mao, Y.; Zhang, T.; Wang, J.*, Shape-tunable polymeric Janus nanoparticles with hollow cavities derived from polymerization induced self-assembly based crosslinked vesicles. Chemical Communications, 2022, 58 (13), 2228-2231.Guo, X.; Li, M.; Wang, J.; Li, C.; Hu, X.; Jin, L.; Sun, N.; Hu, B.; Shen, Z., Heterogeneous Catalysis for Oxidation of Alcohol via 1-Methyl-2-azaadamanane N-oxyl Immobilized on Magnetic Polystyrene Nanosphere. Chemistryselect, 2022, 7 (14).Zhang, H.; Yu, S.; Cao, S.; Liu, X.; Tang, J.; Zhu, L.; Ji, J.; Wang, J.*, Stabilizing Triglyceride in Methanol Emulsions via a Magnetic Pickering Interfacial Catalyst for Efficient Transesterification under Static Conditions. Acs Omega, 2021, 6 (22), 14138-14147.Tang, J.; Liu, X.; Cao, S.; Zhang, S.; Zhang, H.; Zhu, L.; Ji, J.; Wang, J.*, Magnetic Nanoparticles with In Situ Surface Growing Polymeric Brushes as Reactive Pickering Interfacial Catalysts for Biphasic Reactions. Journal of Physical Chemistry C, 2021, 125 (43), 23736-23743.Liu, X.; Mao, Y.; Yu, S.; Zhang, H.; Hu, K.; Zhu, L.; Ji, J.; Wang, J.*, An efficient and recyclable Pickering magnetic interface biocatalyst: application in biodiesel production. Green Chemistry, 2021, 23 (2), 966-972.Wang, J.; Cao, W.; Zhu, L.; Wang, J.; Lakerveld, R., Emulsion-assisted cooling crystallization of ibuprofen. Chemical Engineering Science, 2020, 226.Liu, J.; Wang, S.; Li, W.; Dong, Y.; Wang, J.; Song, Q.; Zhang, C.*, A novel imidazole-based tri-nitrogen metal cations probe with better-selectivity in ionic radius and acting as a Zn2+ fluorescence turn-on sensor. Journal of Molecular Structure, 2020, 1222.Liu, J.; Chen, J.; Dong, Y.; Yu, Y.; Zhang, S.; Wang, J.; Song, Q.; Li, W.; Zhang, C.*, The origin of the unusual red-shifted aggregation-state emission of triphenylamine-imidazole molecules: excimers or a photochemical reaction? Materials Chemistry Frontiers, 2020, 4 (5), 1411-1420.Liao, J.; Liu, Z.; Wang, J.; Ye, Z.*, Cost-Effective Water-Soluble Poly(vinyl alcohol) as a Functional Binder for High-Sulfur-Loading Cathodes in Lithium-Sulfur Batteries. Acs Omega, 2020, 5 (14), 8272-8282.Liang, J.; Ge, J.; Wu, K.; Zhang, Q.; Wang, J.*; Ye, Z.*, Sulfonated polyaryletherketone with pendant benzimidazole groups for proton exchange membranes. Journal of Membrane Science, 2020, 597.Huang, L.; Subramanian, R.; Wang, J.; Oh, J. K.; Ye, Z.*, Ligand screening for palladium nanocatalysts towards selective hydrogenation of alkynes. Molecular Catalysis, 2020, 488.Tao, J.; Wang, J.; Zhu, L.; Chen, X*., Integrated design of multi-stage membrane separation for landfill gas with uncertain feed. Journal of Membrane Science, 2019, 590.Tang, J.; Zhou, X.; Cao, S.; Zhu, L.; Xi, L.; Wang, J.*, Pickering Interfacial Catalysts with CO2 and Magnetic Dual Response for Fast Recovering in Biphasic Reaction. ACS Applied Materials & Interfaces, 2019, 11 (17), 16156-16163.Tang, J.; Cao, S.; Wang, J.*, CO2-switchable Pickering emulsions: efficient and tunable interfacial catalysis for alcohol oxidation in biphasic systems. Chemical Communications, 2019, 55 (74), 11079-11082.Shen, X.; Cao, S.; Zhang, Q.; Zhang, J.; Wang, J.*; Ye, Z.*, Amphiphilic TEMPO-Functionalized Block Copolymers: Synthesis, Self-Assembly and Redox-Responsive Disassembly Behavior, and Potential Application in Triggered Drug Delivery. ACS Applied Polymer Materials, 2019, 1 (9), 2282-2290.Liao, J.; Wang, J.; Liu, Z.; Ye, Z.*, Polar Benzimidazole-Containing (Sulfonated) Poly(arylene ether ketone)s as Bifunctional Binders for Lithium-Sulfur Battery Cathodes with High Sulfur Loadings. ACS Applied Energy Materials, 2019, 2 (9), 6732-6740.Jin, W.; Wang, L.; Zhang, H.; Liang, J.; Cao, S.; Zhang, Q.; Wang, J.*; Ye, Z.*, Crosslinkable polyaryletherketone ultrafiltration membranes with solven-tresistant improvement. Materials Today Communications, 2019, 21.Hu, K.; Tang, J.; Cao, S.; Zhang, Q.; Wang, J.*; Ye, Z.*, TEMPO-Functionalized Aromatic Polymer as a Highly Active, pH-Responsive Polymeric Interfacial Catalyst for Alcohol Oxidation. Journal of Physical Chemistry C, 2019, 123 (14), 9066-9073.Guan, T.; Yan, Q.; Wan, L.; Zhang, S.; Xu, L.; Wang, J.; Yun, J.*, Liquid-liquid flow patterns and slug characteristics in cross-shaped square microchannel for cryogel beads preparation. Chemical Engineering Research & Design, 2019, 148, 312-320.Chen, Z.; Xu, N.; Li, W.; Zhao, R.; Dong, Y.; Liu, J.; Su, C.; Wang, J.; Zhang, C.*, Effect of trace hydrofluoric acid in a LiPF6 electrolyte on the performance of a Li-organic battery with an N-heterocycle based conjugated microporous polymer as the cathode. Journal of Materials Chemistry A, 2019, 7 (27), 16347-16355.Beejapur, H. A.; Zhang, Q.; Hu, K.; Zhu, L.; Wang, J.;* Ye, Z*., TEMPO in Chemical Transformations: From Homogeneous to Heterogeneous. ACS Catalysis, 2019, 9 (4), 2777-2830. 近五年授权发明专利:王建黎; 余锶阳; 祝铃钰; 张浩; 曹世雄; 计建炳 一种静态反应制备生物柴油的生产工艺. ZL 202010596126.5.王建黎; 张浩; 金伟 一种含氮杂环的聚芳醚酮/砜的超/微滤膜及其结构调控方法. ZL 202010619560.0.王建黎; 周雪; 邹思远; 刘小波; 张浩 一种Janus结构聚合物基纳米金属催化剂及其制备方法和应用. ZL 202110296974.9.王建黎; 梁军; 葛姣 一种耐溶剂改性聚芳醚酮超滤膜的制备方法. ZL 201910782543.6. 科研项目 在研项目:(1)Pickering催化剂及相间传质研究(2)人工肺膜材料的产业化关键技术(3)提锂新材料宏量制备的关键技术(4)血液透析用聚合物(原料)的产业化关键技术(5)纯水深度脱氧树脂新材料(6)疫苗生产关键过滤材料的产业化(7)改性纤维素(淀粉、木质素)材料(8)核酸检测快速分离关键材料 社会服务 1、浙江省膜学会,常务理事2、中国膜工业协会生物医用膜专委会,委员3、杭州市中级人民法院,技术官4、浙江省质量合格评定协会,鉴定专家 内容来自集群智慧云企服 实用新型专利1875代写全部资料全国受理