姓名:胡冬冬
职称:副教授、硕士生导师
地址:新葡的京集团4321实验十六楼515室
电话:021-64253470
电子邮件:hudd@ecust.edu.cn
【个人简介】
教育背景 2011.09-2016.06,新葡的京集团4321,化学工程,博士
2007.09-2011.06,新葡的京集团4321,化学工程与工艺,学士
工作经历 2023.01—至今,新葡的京集团4321,新葡的京集团4321,副教授
2019.12-2022.12,新葡的京集团4321,新葡的京集团4321,特聘副研究员
2016.07-2019.12,新葡的京集团4321,新葡的京集团4321,师资博士后
2018.08-2019.08,美国德克萨斯大学奥斯汀分校,访问博士后
【所获荣誉】
2019年上海市科技进步奖一等奖
2020年中国产学研合作创新成果奖二等奖
2023年第二十四届中国专利优秀奖
2023年新葡的京集团4321优秀研究生指导教师
【社会兼职】
国际先进材料与制造工程学会(SAMPE)中国大陆总会聚合物发泡与多孔材料专业委员会委员、《中国塑料》期刊青年编委
【研究方向】
超临界流体技术,主要从事超临界流体辅助化工新材料制备的研究,包括超临界流体发泡聚合物、超临界流体与聚合物体系相互作用、超临界CO2乳液/微乳液、聚合物材料轻量化和功能化应用等
【承担项目】
1. 国家自然科学基金面上项目,基于不同CO2亲和性的添加剂设计聚氯乙烯配方体系及其超临界CO2微孔连续挤出发泡行为调控,2024-2027,50万.
2. 国家自然科学基金青年基金项目,调控超临界CO2发泡聚合物过程中溶解扩散行为的复合添加剂设计及其协同作用机制,2018-2020,25万.
3. 上海市自然科学基金,超临界CO2发泡制备低密度PBAT珠粒绿色过程的强化机制和方法,2020-2023,20万.
4. 中央高校基本科研业务费科技基础建设专项,轻量化化工新材料,2020-2021,40万.
5. 新葡的京集团4321“双一流”引导专项师资队伍建设专项科研经费,2020-2022,50万.
6. 中央高校基本科研业务费青年探索基金,碳氢表面活性剂构建高内相CO2/水乳液的作用机制,2017-2019,16万.
7. 化学工程联合国家重点实验室开放基金,2022,20万.
8. 中国石化,可降解聚酯PBXT工业技术开发和示范应用,2021-2023.
9. 上海石化,PET挤出发泡研究开发,2021-2022.
10. 山东京博,聚烯烃材料发泡工艺开发,2021-2025.
11. 贵州乌江,超临界发泡工艺技术研究,2023-2024.
12. 上海华峰,超临界流体发泡制备弹性体发泡材料和可降解发泡材料,2021-2022.
13. 苏州申赛,超临界二氧化碳模压发泡新产品开发,2021-2024.
【主要成果】
发表SCI论文60余篇,其中一作/通讯20余篇;申请国家发明专利20余项,授权10项。
【近年来发表的代表性论文】
1. Weijie Li, Zheng Gong, Kaiwen Wu, Ling Zhao, Dongdong Hu*. Effect of crystalline transformation on supercritical CO2 foaming and cell morphology of isotactic polybutene-1. Journal of CO2 Utilization, 2023, 74, 102546.
2. Xiulu Gao, Huan Qian, Yichong Chen, Yujia Hui, Ling Zhao, Dongdong Hu*. Preparation of low density microcellular thermoplastic polyurethane with high compression properties based on micro-phase separation structure. Polymer, 2023, 289, 12648.
3. Zheng Gong, Peiying Yue, Yichong Chen, Weijie Li, Ling Zhao, Dongdong Hu*. Structure-tunable polyether block amide/polylactic acid foams with shape memory performance using supercritical CO2 foaming. The Journal of Supercritical Fluids, 2023, 203, 106090.
4. Chengguang Wang, Menglong Xu, Yichong Chen, Zhimei Xu, Ling Zhao, Dongdong Hu*.Controllable cell structures of poly (ether-block-amide) foams via isothermal melt crystallization-foaming in supercritical CO2. The Journal of Supercritical Fluids, 2023, 201, 106030.
5. Dongdong Hu, Weijie Li, Kaiwen Wu, Liyun Cui, Zhimei Xu, Ling Zhao*. Utilization of supercritical CO2 for controlling the crystal phase transition and cell morphology of isotactic polybutene-1 foams. Journal of CO2 Utilization, 2022, 66,102265.
6. Dongdong Hu, Kun Xue, Zhen Liu, Zhimei Xu, Ling Zhao*. The essential role of PBS on PBAT foaming under supercritical CO2 toward green engineering. Journal of CO2 Utilization, 2022, 60, 101965.
7. Dongdong Hu, Xiulu Gao, Wei Qiang, Yichong Chen, Zhimei Xu, Ling Zhao*. Effect of additives on the dynamic bubble growth behavior of polymer foam evaluated with in-situ visualizations and simulations. Polymer Testing, 2022, 105, 107419
8. Dongdong Hu, Xiulu Gao, Wei Qiang, Liyun Cui, Zhimei Xu, Ling Zhao*. Formation mechanism of bi-modal cell structure polystyrene foams by synergistic effect of CO2-philic additive and co-blowing agent. The Journal of Supercritical Fluids, 2022, 181, 105498.
9. Kun Xue, Peng Chen, Can Yang, Zhimei Xu, Ling Zhao, Dongdong Hu*. Low-shrinkage biodegradable PBST/PBS foams fabricated by microcellular foaming using CO2 & N2 as co-blowing agents. Polymer Degradation and Stability, 2022, 206, 110182.
10. Xiulu Gao,Yichong Chen, Zhimei Xu, Ling Zhao, Dongdong Hu*. Supercritical CO2 foaming of thermoplastic polyurethane composite: simultaneous simulation of cell nucleation and growth coupling in situ visualization. Industrial & Engineering Chemistry Research, 2022, 61(36): 13474-13487.
11. Xiulu Gao, Yichong Chen, Peng Chen, Zhimei Xu, Ling Zhao, Dongdong Hu*. Supercritical CO2 foaming and shrinkage resistance of thermoplastic polyurethane/modified magnesium borate whisker composite. Journal of CO2 Utilization, 2022, 57: 101887.
12. Peng Chen, Xiulu Gao, Ling Zhao, Zhimei Xu, Naixiang Li, Xiaohu Pan, Junming Dai, Dongdong Hu*. Preparation of biodegradable PBST/PLA microcellular foams under supercritical CO2: Heterogeneous nucleation and anti-shrinkage effect of PLA. Polymer Degradation and Stability, 2022, 197, 109844.
13.Dongdong Hu,Chen Zhou,Tao Liu,Yichong Chen,Zhen Liu,Ling Zhao*. Experimental and numerical study of the polyurethane foaming process using high-pressure CO2.Journal of Cellular Plastics, 2021, 57(6): 927-949.
14.Peng Chen, Ling Zhao, Xiulu Gao, Zhimei Xu, Zhen Liu, Dongdong Hu*. Engineering of polybutylene succinate with long-chain branching toward high foamability and degradation. Polymer Degradation and Stability, 2021, 194, 109745.
15. Xiulu Gao, Wei Qiang, Ling Zhao, Zhimei Xu, Tao Liu, Mengwei Tian, Zhen Liu, Dongdong Hu*. Effect of alcohols-regulated crystallization on foaming process and cell morphology of polypropylene. The Journal of Supercritical Fluids, 2021, 175, 105271.
16. Wei Qiang, Ling Zhao, Xiulu Gao, Tao Liu, Zhen Liu, Wei-Kang Yuan, Dongdong Hu*. Dual role of PDMS on improving supercritical CO2 foaming of polypropylene: CO2-philic additive and crystallization nucleating agent. The Journal of Supercritical Fluids, 2020, 163, 104888.
17. Wei Qiang, Ling Zhao, Tao Liu, Zhen Liu, Xiulu Gao, Dongdong Hu*. Systematic study of alcohols based co-blowing agents for polystyrene foaming in supercritical CO2: Toward the high efficiency of foaming process and foam structure optimization. The Journal of Supercritical Fluids, 2020, 158, 104718.
18. Chao Zhang, Pingkeng Wu, Zhaomin Li, Tao Liu, Ling Zhao, Dongdong Hu*.Ethanol enhanced anionic surfactant solubility in CO2 and CO2 foam stability: MD simulation and experimental investigations. Fuel, 2020, 267, 117162.