bevictor伟德
团队力量

朱剑波     教授,博士生导师

研究方向:高分子化学、有机化学

联系方式:          Email:jbzhu@scu.edu.cn

个人主页:点击进入

简历:

教育及工作经历

20193- 教授 bevictor伟德

20179-20192 Research Scientist II科罗拉多州立大学 合作导师:Prof. Eugene Chen

20149-20178 博士后 科罗拉多州立大学 合作导师:Prof. Eugene Chen

20099-20147 理学博士 中科院上海有机化学研究所 导师:唐勇 院士

20059-20097 理学学士 bevictor伟德 导师:周向葛 教授

主要研究方向

环境友好高分子材料

聚合反应新方法

不对称催化反应

课题组长期招收博士后、博士、硕士研究生、研究助理,同时欢迎各学科背景本科生利用课余时间从事科研项目,完成毕业论文等。

主要工作业绩

朱剑波博士,教授,博士生导师,环保型高分子材料国家地方联合工程实验室固定成员。20193月至今任职于bevictor伟德,独立开展环境友好型高分子材料方向的研究。

有机高分子材料已经成为人们日常生活、经济活动和国防建设必不可少的支撑材料。但是,高分子材料的快速发展和不当处理也带来了一系列环境问题和资源问题。例如,从大家所熟知的废弃塑料的“白色污染”、废弃轮胎的“黑色污染”以及废弃纺织纤维的“彩色污染”到如今受到广泛关注的海洋“微塑料”等问题。同时,目前高分子材料的生产过度依赖不可再生的化石资源。针对上述日益严重的问题,课题组从实现高分子材料可持续发展的角度出发,开展有机化学与高分子化学交叉学科研究,主要有以下几个研究方向:(1)开发新型生物质来源、性能优异高分子材料;(2)发展高效催化剂通过不对称反应构建手性聚合单体;(3)开发可反复循环利用高分子材料;(4)发展高效、高选择性高分子合成方法。例如,我们针对废旧塑料污染问题,发展了一类基于五元环内酯的高性能可反复循环利用高分子材料,该研究为解决废旧塑料回收问题提供新的思路。该工作在《科学》杂志上发表以后,引起国际学术界和社交媒体的广泛关注。相关成果以第一作者或通讯作者身份发表在Science Nat. Catal Nat. Commun J. Am. Chem. Soc. Angew. Chem. Int. Ed.等国际顶尖学术期刊上。其中可反复循环利用聚酯工作(Science 2018360, 398-403)被美国化学与工程新闻杂志(C&EN)选为2018年年度成果(Selected as the Research of the Year 2018 by C&EN)

主要奖励和荣誉  

2022年,伟德bevictor中文版拔尖创新人才培养优秀指导教师

2022年,“Chinese Journal of Chemistry” Emerging Investigator

2021年,伟德bevictor中文版拔尖创新人才培养优秀指导教师

2021年,第十三批四川省学术和技术带头人后备人选

2020年,伟德bevictor中文版优秀本科毕业论文指导奖

2020年,四川省高层次海外人才引进项目青年项目

2020年,伟德bevictor中文版优秀科技人才奖

2019年,国家海外高层次人才引进项目青年项目

代表性成果 (获奖成果、专著、论文、专利)

20. Cao, Q.; Tu, Y.-M.; Fan, H.-Z.; Shan, S.-Y.; Cai, Z.; Zhu, J.-B. Torsional Strain Enabled Ring-Opening Polymerization towards Axially Chiral Semiaromatic Polyesters with Chemically Recyclability. Angew. Chem. Int. Ed2024, 63, e202400196. (Selected as Hot Paper)

19. Chen, J.-H.; Tu, Y.-M.; Yao, J.-R.; Tang, X.-X.; Xia, Y.-Y.; Cai, Z.; Zhang, Q.; Zhu, J.-B. Accessing Chemically Recyclable Polyamides via Geminal Dimethyl Substitution. Polymer, 2024, 298, 126898.

18. Shan, S.-Y.; Zhang, W.; Cao, Q.; Ye, Y.-C.; Cai, Z.; Zhu, J.-B. Cis-Fused Cyclohexane Promoted the Chemical Recycling of Polycarbonate to Monomer. Polym. Chem. 2024, 15, 1070–1076.

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17. Xiong, W.; Dai, J.; Cai, Z.; Zhu, J.-B. Advancing the Material Performance of Chemically Recyclable Polythioesters via Copolymerization. Polymer, 2024, 290, 126515.

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16. Huang, H.-Y.; Cai, Z.; Zhu, J.-B. Stereoregular Polyhydroxyalkanoates via Ring-Opening Polymerization of rac-β-lactones Catalysed by Spiro-Salen Yttrium Complexes. Chin. Sci. Bull. 2023, 68, 45974599. (Invited contribution on popular science)

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15. Dai, J.; Xiong, W.; Li, D.-Y.; Cai, Z.; Zhu, J.-B. Bifunctional Thiourea-Based Organocatalysts Promoted Kinetic Resolution Polymerization of Racemic Lactide to Isotactic Polylactide. Chem. Commun. 2023, 59, 1273112734.

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14. Wu, Y.-C.; Fan, H.-Z.; Shan, S.-Y.; Wang, S.-Q.; Cai, Z.; Zhu, J.-B. Functionalizable and Recyclable Aliphatic Polycarbonates Derived from Biomass Feedstocks and CO2. Chem. Res. Chin. Univ. 2023, 39, 809815. (Invited contribution to the special issue on polymer science)

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13. Huang, H.-Y.; Xiong, W.; Huang, Y.-T.; Li, K.; Cai, Z.; Zhu, J.-B. Spiro-Salen Catalysts Enable the Chemical Synthesis of Stereoregular Polyhydroxyalkanoates. Nat. Catal. 2023, 6, 720728. (Highlighted by NSFC)

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12. Tu, Y.-M.; Gong, F.-L.; Wu, Y.-C.; Cai, Z.; Zhu, J.-B. Insights into Substitution Strategy towards Thermodynamic and Property Regulation of Chemically Recyclable Polymers. Nat. Commun 2023, 14, 3198.

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11. Wang, X.-M.; Huang, H.-Y.; Tu, Y.-M.; Cai, Z.; Zhu, J.-B. Naphthalene Engineering of Chemically Recyclable Polyesters with Enhanced Thermal and Mechanical Properties. Polym. Chem. 2023, 14, 2027–2033. (Invited contribution to the special issue on plastic conversion)

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10. Fan, H.-Z.; Yang, X.; Wu, Y.-C.; Cao, Q.; Cai, Z.; Zhu, J.-B. Leveraging the Monomer Structure for High-Performance Chemically Recyclable Semiaromatic Polyesters. Polym. Chem. 2023, 14, 747–753. (Invited contribution to the special issue on plastic conversion; Selected as one of Polymer Chemistry’s most popular 2023 articles)

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9. Dai, J.; Xiong, W.; Du, M.-R.; Wu, G.; Cai, Z.; Zhu, J.-B. A Facile Approach towards High-Performance Poly(thioether-thioester)s with Full Recyclability. Sci. China Chem2023, 66, 251258.

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8. Wu, Y.-C.; Fan, H.-Z.; Zhang, W.; Wang, M.-Y.; Cai, Z.; Zhu, J.-B. Biobased Bifunctional Monomers toward Functionalizable Polycarbonates and Poly(cyclic olefin)s with Tunable Properties. Macromolecules 2022, 55, 9232–9241.

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7. Yang, X.; Fan, H.-Z.; Cai, Z.; Zhang, Q.; Zhu, J.-B. Ring-Opening Polymerization of a Benzyl-Protected Cyclic Ester towards Functional Aliphatic Polyester. Chin. J. Chem. 2022, 40, 29732980. (Dedicated to the Special Issue of Emerging Investigators in 2022, Selected as Cover Paper)

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6. Cai, Z.; Liu, Y.; Tao, Y.-H.; Zhu, J.-B. Recent Advances in Monomer Design for Recyclable Polymers. Acta Chim. Sinica 2022, 80, 11651182 (Invited Review, in Chinese, Selected as Cover Paper).

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5. Zhu, J.-B. Introducing… Angew. Chem. Int. Ed2022, 61, e202202854.

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4. Yang, X.; Zhang, W.; Huang, H.-Y.; Dai, J.; Wang, M.-Y.; Fan, H.-Z.; Cai, Z.; Zhang, Q.; Zhu, J.-B. Stereoselective Ring-Opening Polymerization of Lactones with a Fused Ring Leading to Semicrystalline Polyesters. Macromolecules 202255, 2777–2786.

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3. Fan, H.-Z.; Yang, X.; Chen, J.-H.; Tu, Y.-M.; Cai, Z.; Zhu, J.-B. Advancing the Development of Recyclable Aromatic Polyesters by Functionalization and Stereocomplexation. Angew. Chem. Int. Ed2022, 61, e202117639 (Selected as Hot Paper). 

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2. Zhang, W.; Dai, J.; Wu, Y.-C.; Chen, J.-X.; Shan, S.-Y.; Cai, Z.; Zhu, J.-B. Highly Reactive Cyclic Carbonates with a Fused Ring toward Functionalizable and Recyclable Polycarbonates. ACS Macro Lett. 2022, 11, 173178.

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1. Tu, Y.-M.; Wang, X.-M.; Yang, X.; Fan, H.-Z.; Gong, F.-L.; Cai, Z.; Zhu, J.-B. Biobased High-Performance Aromatic–Aliphatic Polyesters with Complete Recyclability. J. Am. Chem. Soc. 2021, 143, 20591–20597. (Highlighted by NSFC)

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Supervised Work (Before 2019)

11. Sangroniz, A.; Zhu, J.-B.; Tang, X.; Etxeberria, A.; Chen, E.-Y. X.; Sardon, H. Packaging Materials with Desired Mechanical and Barrier Properties and Full Chemical Recyclability. Nat. Commun 2019, 10, 3559–3566.

10. Cao, Z.§; Zhu, J.-B.§; Wang, L.; Liao, S.; Tang, Y. A Synthesis of Multifunctionalized Indoles from [3 + 2] Annulation of 2-Bromocyclopropenes with Anilines. Org Lett. 2019, 21, 4097–4100 (§contributed equally).

9. Zhu, J.-B.; Chen, E.-Y. X. Catalyst-Sidearm-Induced Stereoselectivity Switching in Polymerization of a Racemic Lactone for Stereocomplexed Crystalline Polymer with a Circular Life Cycle. Angew. Chem. Int. Ed2019, 58, 11781182.

8. Zhu, J.-B.; Chen, E.-Y. X. Living Coordination Polymerization of a Six‐Five Bicyclic Lactone to Produce Completely Recyclable Polyester. Angew. Chem. Int. Ed. 2018, 57, 1258812562.

7. Zhu, J.-B.; Watson, E. M.; Tang, J.; Chen, E.-Y. X. A Synthetic Polymer System with Repeatable Recyclability. Science, 2018, 360, 398403. Highlighted by Science (Plastics recycling with a difference)Science News (This plastic can be recycled over and over and over again), C&EN (Strong, stable polymer can be recycled again and again) and The Times (New ‘infinitely recyclable’ plastic created). Selected as the Research of the Year 2018 by C&EN!

6. Zhu, J.-B.; Tang, X.; Falivene, L.; Caporaso, L.; Cavallo, L.; Chen, E.-Y. X. Organocatalytic Coupling of Bromo-Lactide with Cyclic Ethers and Carbonates to Chiral Bromo-Diesters: NHC or Anion Catalysis? ACS Catal. 2017, 7, 39293933.

5. Zhu, J.-B.; Chen, E.-Y. X. From meso-Lactide to Isotactic Polylactide: Epimerization by B/N Lewis Pairs and Kinetic Resolution by Organic Catalysts. J. Am. Chem. Soc. 2015, 137, 1250612509.

4. Zhu, J.-B.; Chen, H.; Liao, S.; Li, Y.-X.; Tang, Y. A Sidearm-assisted Phosphine for Catalytic ylide Intramolecular Cyclopropanation. Org. Chem. Front. 2014, 1, 10351039.

3. Zhu, J.-B.; Chen, H.; Wang, L.; Tang, Y. Stereospecific Synthesis of Highly Functionalized Benzo[3.1.0]bicycloalkanes via Multistep Cascade Reactions. Org. Chem. Front. 2014, 1, 965968.

2. Zhu, J.-B.; Wang P.; Liao, S.; Tang, Y. PPh3-mediated Intramolecular Conjugation of Alkyl Halides with Electron-deficient Olefins: Facile Synthesis of Chromans and Relevant Analogues, Chem. Commun. 2013, 49, 4570–4572.

1. Zhu, J.-B.; Wang, P.; Liao, S.; Tang, Y. Ylide Hydrolysis in Tandem Reactions: A Highly Z/E-Selective Access to 3-Alkylidene Dihydrobenzofurans and Related Analogues. Org. Lett. 2013, 15, 3054–3057.

授权专利

3. 朱剑波,黄皓毅,蔡中正,一种螺环Salen配体、Salen催化剂及制备方法及其在开环聚合中的应用,ZL202110887204.1

2. Chen, E. Y.-X.; Zhu, J.-B. “Recyclable Polymers Based on Ring-Fused Gamma-Butyrolactones”, U.S. Pat. 10,759,899 B2, 2020.

1. Chen, E. Y.-X.; Zhu, J.-B. “Transformation of Meso-Lactide”, U.S. Pat. 10,174,161 B2, 2019.

 

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