乌婧
发布人: 星禧   发布时间: 2018-07-01    浏览次数:



乌婧 (Jing Wu)

学位:博士 (Doctor)

职称:研究员 (Professor)

导师身份:博士/硕士生导师 (Doctoral/Master Supervisor)

邮箱:wuj@dhu.edu.cn

电话:+86-21-67798678


 

个人简介:

乌婧,女,澳门·永利集团3044研究员,博士生导师。先后在天津大学、南开大学、荷兰埃因霍芬理工大学、荷兰瓦格宁根大学、以及德国巴斯夫公司学习及从事产业研究工作。2016年加入澳门·永利集团3044以来,专注于生物基、生物可降解等环境生态友好型纤维及材料研究Progress in Polymer Science, Advanced Science, Macromoelcules, Green Chemistry, ACS Sustainable Chemistry & Enginieering, ChemSusChem等期刊发表论文40余篇,获得授权发明专利25项。作为课题负责人主持十三五、十四五国家重点研发计划课题,主持国家自然科学基金面上基金、青年基金,中石化等10余项企业合作项目。担任中国化学纤维工业协会标准化技术委员会生物基化学纤维分技术委员会委员、国家先进纤维创新中心生物基纤维材料咨询专家、中国纺织工程学会纤维微塑料防控科学与工程科研基地副主任,中国纺织工程学会高级会员,《塑料科技》《包装工程》理事及青年编委等学术兼职。

 

学习及工作经历 

2016-至今,澳门·永利集团3044,副研究员/研究院

2013-2016德国巴斯夫公司,工程塑料部门,研究员;

2008-2012荷兰埃因霍芬理工大学,导师Prof. Dr. Cor E. Koning

2008-2011年,荷兰瓦格宁根大学,合作导师,Daan van Es高级研究员;

2005-2008年,南开大学化学与化工学院,元素有机国家重点实验室,导师:李正名院士;

2001-2005天津大学药学院;本科

 

研究方向:

(1) 生物基低碳高分子材料新型生物基单体和聚合物结构设计;

(2) 生物可降解高分子材料及纤维、薄膜和功能高分子应用;

(3) 微塑料产生机制及降解行为

(4) 高分子材料可控降解及可回收设计

 

国际交流与合作:

与荷兰瓦格宁根大学食品与生物质研究所,荷兰格罗宁根大学,德国BASF公司等世界知名研究所和企业保持良好的学术交流及合作关系。

 

科研项目:

1. 低成本高性能生物基聚酯和聚碳酸酯的制备与产业化,国家重点研发项目课题,2021-2025,课题负责人

2. 生物基PTT聚酯聚合与成形动力学机理,国家重点研发项目课题,2017-2021,课题负责人

3. 再生聚酯纤维高效制备技术,国家重点研发项目,2016-2020,项目骨干

4. 国家自然科学基金面上基金,2021-2024,主持

5. 中央高校基本科研业务费专项资金交叉重点项目,2021-2024参与

6. 国家自然科学基金青年基金,2019-2021,主持。

7. 主持及参与10余项企业合作项目

 

个人荣誉

1. 中国纺织工业联合会科学技术奖一等奖(2020

2. 中国纺织工业联合会科学技术奖二等奖(2021

3.  “中国纺织工业联合会纺织高等教育教学成果奖” 二等奖(2021

4. “澳门·永利集团3044教学成果奖”特等奖2021

5. 中国化学纤维工业协会恒逸基金优秀学术论文奖 (2018

6. 上海市纺织工程学会第六届东方明珠奖优秀论文奖(2020

7. 帝斯曼公司科学技术奖二等奖(2013)

8. 国家优秀自费留学生奖学金(2013

9. 荷兰高分子研究所专利奖(2013

 

代表性研究论文:

1. Zhou, D. W.;  Luo, H. X.;  Zhang, F. Z.;  Wu, J.*;  Yang, J. P.; Wang, H. P.*, Efficient Photocatalytic Degradation of the Persistent PET Fiber-Based Microplastics over Pt Nanoparticles Decorated N-Doped TiO2 Nanoflowers. Advanced Fiber Materials 2022, 4 (5), 1094-1107.

2. Zhang, X.;  Chen, Y.;  Ye, M. T.;  Wu, J.*; Wang, H. P.*, Biodegradable Copolyesters with Unexpected Highly Blocky Microstructures and Enhanced Thermal Properties. ACS Sustainable Chemistry & Engineering 2022, 10 (14), 4438-4450.

3. Wang, Y.;  Wu, J.*;  Koning, C. E.; Wang, H.*, Short-process synthetic strategies of sustainable isohexide-based polyesters towards higher molecular weight and commercial applicability. Green Chemistry 2022. DOI: 10.1039/D2GC02608B

4. Liu, M.;  Ma, C.;  Zhou, D.;  Chen, S.;  Zou, L.;  Wang, H.; Wu, J.*, Hydrophobic, breathable cellulose nonwoven fabrics for disposable hygiene applications. Carbohydrate Polymers 2022, 288, 119367.

5. Lin, Y. M.;  Ye, M. T.;  Zhang, X.;  Chen, Y.;  Chen, Y.;  Wu, J.*; Wang, H. P.*, Biodegradable copolyesters based on a soft isohexide building block with tunable viscoelasticity and self-adhesiveness. Polym Chem-Uk 2022, 13 (31), 4511-4523.

6. Chen, J. L.;  Wu, J.*;  Sherrell, P. C.;  Chen, J.;  Wang, H. P. *;  Zhang, W. X.; Yang, J. P. *, How to Build a Microplastics-Free Environment: Strategies for Microplastics Degradation and Plastics Recycling. Advanced Science 2022, 9 (6). https://doi.org/10.1002/advs.202103764

7. Chen, J.;  Wu, J. *;  Raffa, P.;  Picchioni, F.; Koning, C. E., Superabsorbent Polymers: From long-established, microplastics generating systems, to sustainable, biodegradable and future proof alternatives. Progress in Polymer Science 2022, 125, 101475.

8. J. L. Chen, J. Wu*, P. C. Sherrell, J. Chen, H. P. Wang*, W.-X. Zhang, J. P. Yang*, “How to build a microplastics-free environment: strategies for microplastics degradation and plastics recycling”, Advanced Science, 2022, 2103764.

9. 周大旺;  乌婧;  杨建平;  陈烨;  吉鹏; 王华平*, 纤维微塑料的研究现状及其削减策略. 纺织学报2021, 42 (06), 8-17. (邀请论文)

10. 王亚宁;  周楚帆;  乌婧*; 王华平, 生物基异己糖醇聚酯的制备及其构效关系研究进展. 纺织学报 2021, 42 (08), 8-16. (邀请论文)

11. Zhou, D.; Chen, J.; Wu, J.*; Yang, J.*; Wang, H.*, Biodegradation and catalytic-chemical degradation strategies to mitigate microplastic pollution. Sustainable Materials and Technologies 2021, 28, e00251.

12. Wu, J.*;  Qi, J.;  Lin, Y.;  Chen, Y.;  Zhang, X.;  Wu, R.; Wang, H., Lipase-Catalyzed Fully Aliphatic Copolyesters Based on Renewable Isohexide Isomers. ACS Sustainable Chemistry & Engineering 2021, 9 (4), 1599-1612.

13. Xu, H.;  Wu, J.;  Luo, W.;  Li, Q.;  Zhang, W. X.; Yang, J. P., Dendritic Cell-Inspired Designed Architectures toward Highly Efficient Electrocatalysts for Nitrate Reduction Reaction. Small 2020, 16 (30).

14. Chen, J. Y.;  Lin, Y. M.;  Chen, Y.;  E, K. C.;  Wu, J.*; Wang, H. P., Low-crystallinity to highly amorphous copolyesters with high glass transition temperatures based on rigid carbohydrate-derived building blocks. Polym Int 2020 (邀请论文).

15. 王晶晶;  陈咏;  王朝生;  王华平;  边树昌; 乌婧, 生物基聚对苯二甲酸丙二醇酯低聚物的提取及其热性能. 纺织学报 2020, 41 (6), 1-7.

16. 陈咏;  王晶晶;  王朝生;  顾栋华;  乌婧; 王华平, 低聚物对生物基聚对苯二甲酸丙二醇酯结晶性能的影响. 纺织学报 2020, 41 (10), 1-6.

17. Wu, J.;  Yin, N.;  Chen, S.;  Weibel, D. B.; Wang, H., Simultaneous 3D cell distribution and bioactivity enhancement of bacterial cellulose (BC) scaffold for articular cartilage tissue engineering. Cellulose 2019, 26, 2513-2528.

18. Qi, J. F.;  Wu, J.*;  Chen, J. Y.; Wang, H. P., An investigation of the thermal and (bio)degradability of PBS copolyesters based on isosorbide. Polym. Degrad. Stab. 2019, 160, 229-241.

19. Chen, J.;  Wu, J*.;  Qi, J.; Wang, H.*, Systematic Study of Thermal and (Bio)Degradable Properties of Semiaromatic Copolyesters Based on Naturally Occurring Isosorbide. ACS Sustainable Chemistry & Engineering 2019, 7 (1), 1061-1071.

20. Wu, J.;*  Thiyagarajan, S.;  Guerra, C. F.;  Eduard, P.;  Lutz, M.;  Noordover, B. A. J.;  Koning, C. E.; van Es, D. S., Isohexide Dinitriles: A Versatile Family of Renewable Platform Chemicals. ChemSusChem 2017, 10 (16), 3202-3211.

21. Wu, J.;  Eduard, P.;  Thiyagarajan, S.;  Noordover, B. A. J.;  van Es, D. S.; Koning, C. E., Semi-Aromatic Polyesters Based on a Carbohydrate-Derived Rigid Diol for Engineering Plastics. ChemSusChem 2015, 8 (1), 67-72.

22. Wu, J.;  Eduard, P.;  Jasinska-Walc, L.;  Rozanski, A.;  Noordover, B. A. J.;  van Es, D. S.; Koning, C. E., Fully Isohexide-Based Polyesters: Synthesis, Characterization, and Structure-Properties Relations. Macromolecules 2013, 46 (2), 384-394.

23. Wu, J.;  Jasinska-Walc, L.;  Dudenko, D.;  Rozanski, A.;  Hansen, M. R.;  van Es, D.; Koning, C. E., An Investigation of Polyamides Based on Isoidide-2,5-dimethyleneamine as a Green Rigid Building Block with Enhanced Reactivity. Macromolecules 2012, 45 (23), 9333-9346.

24. Wu, J.;  Eduard, P.;  Thiyagarajan, S.;  Jasinska-Walc, L.;  Rozanski, A.;  Guerra, C. F.;  Noordover, B. A. J.;  van Haveren, J.;  van Es, D. S.; Koning, C. E., Semicrystalline Polyesters Based on a Novel Renewable Building Block. Macromolecules 2012, 45 (12), 5069-5080.

25. Wu, J.;  Eduard, P.;  Thiyagarajan, S.;  van Haveren, J.;  van Es, D. S.;  Koning, C. E.;  Lutz, M.; Guerra, C. F., Isohexide Derivatives from Renewable Resources as Chiral Building Blocks. ChemSusChem 2011, 4 (5), 599-603.