田雷职称:助理教授/特聘副研究员 EMAIL:leitian@szu.edu.cn |
田雷,深圳大学特聘副研究员,助理教授,硕士生导师,深圳市海外高层次人才,香港大学博士后研究员。现任《高分子通报》编委,《Energy Materials and Devices》青年编委。2018年博士毕业于西北工业大学,主要从事胶体结构控制制备与性能研究,开创新型种子溶胀聚合技术。随后获得香港大学第39届postdoctoral fellowship (PDF),加入香港大学化学系担任博士后研究员,开展高分子刷可控合成及其诱导形成空腔结构的机理研究。2020年5月任教于深圳大学化学与环境工程学院,长期致力于高性能高分子材料的设计合成与性能研究。近期在瞬态可回收高分子、高性能离子/电子导通高分子及纤维、热致液晶高分子及纤维、碳纤维用高分子前驱体、智能高分子材料等取得系列进展。迄今为止,在Macromolecules,ACS Applied Materials & Interfaces,Polymer chemistry,ACS Sustainable Chemistry & Engineering,Langmuir等国际知名期刊上发表学术论文40多篇。近3年,作为负责人主持科研项目4项,包括国家自然基金1项,深圳市基础研究面上项目1项,深圳市孔雀计划启动项目1项。主持教研项目2项,包括广东省高等教育教学研究和改革项目1项等。
工作与教育经历
2020.11-至今,深圳大学,化学与环境工程学院,特聘副研究员
2020.05-至今,深圳大学,化学与环境工程学院,助理教授
2018.09-2020.03,香港大学,化学系,博士后研究员
2013.09-2018.06,西北工业大学,应用化学系,理学博士
2009.09-2013.07,西北工业大学,应用化学系,工学学士
职位空缺 Positions opening(长期)
博士后:长期招聘博士后/研究助理。研究方向包括但不限于高分子合成、高分子加工、高性能纤维、固态电池、计算化学等。博士后人员在站期间综合年薪约34万元人民币。详情欢迎咨询,邮件:leitian@szu.edu.cn。
研究生:化学/材料学/化学工程研究生,欢迎咨询。
v 高分子能源材料及宽温域高电导固态聚合物电解质
v 高安全高能量密度固态聚合物电池研究
v 高强高韧软电子材料的设计制备与应用
v 高性能碳材料成碳机理及复合材料研究
研究小组:
(1)固态聚合物电池组:王岱、董韦良、母可心、宋珍诺、许伟健
(2)离子凝胶与导电高分子材料组:吴刘一顺、黄海玉、徐泳斌
(3)成碳机理组:谭吉吉、李欣桐
1. 国家自然科学基金青年基金,24万元,主持
2. 广东省自然科学基金面上项目,10万元,主持
3. 横向项目:2022年中国石油科技创新基金研究项目,50万,主持
4. 2023年深圳市科技重大专项,凝胶聚合物电解质(贝特瑞、深大、深圳比亚迪锂电池),1000万,高校方负责人
5. 深圳市自然科学基金重点项目(高校稳定支持计划),100万元,主持
6. 深圳市基础研究面上项目,60万元,主持
7. 深圳市海外高层次人才科研启动经费,300万元,主持
8. 国家自然基金重点项目,320万元,参与,核心成员
9. 深圳大学青年教师科研启动项目,20万元,主持
10. 2021年广东省高等教育教学研究和改革项目,主持
11. 2021年深圳大学教学改革项目,主持
2023年
² 30. Yishun Wuliu, Guohua Huang, Jiji Tan, Weiliang Dong, Haiyu Huang, Kexin Mu, Lukun Feng, Min-gliang Wang, Lei Tian*, Caizhen Zhu, and Jian Xu. High Refractive Index and High Abbe Number Polymer Based on Norbornadiene. Macromolecules 2023 56 (23), 9881-9887.
² 29. Kexin Mu, Dai Wang, Weiliang Dong, Qiang Liu, Zhennuo Song, Weijian Xu, Pingping Yao, Yin'an Chen, Bo Yang, Cuihua Li, Lei Tian*, Caizhen Zhu, Jian Xu. Hybrid Crosslinked Solid Polymer Electrolyte via In-Situ Solidification Enables High-Performance Solid-State Lithium Metal Batteries. Adv. Mater. 2023, 2304686.
² 28. Dai Wang, Hui Xie, Qiang Liu, Kexin Mu, Zhennuo Song, Weijian Xu, Lei Tian*, Caizhen Zhu, and Jian Xu. Low-Cost, High-Strength Cellulose-based Quasi-Solid Polymer Electrolyte for Solid-State Lithium-Metal Batteries. Angew. Chem. Int. Ed. 2023, e202302767. 该论文入选 Angew. Chem. Int. Ed. 期刊 VIP(Very Important Paper)论文.
2022年
² 27. Lei Tian, Jiji Tan, Dai Wang, Weiliang Dong, Haiyu Huang, Xintong Li, Caizhen Zhu, Jian Xu. Transient materials from hypersensitive ionic polymer fibers. Chemical Engineering Journal, 2023, 454, 140549.
² 26. 王岱,田雷,朱才镇,徐坚。固态聚合物电解质研究进展。高分子通报 。稿号:GFZTB-2022-0251.R1.
² 25. Lei Tian* #, Jiji Tan#, Weiliang Dong, Bo Yang, Cuihua Li, Dai Wang, Haiyu Huang, Xintong Li, Caizhen Zhu*, Jian Xu. Wireless Autonomous Soft Crawlers for Adjustable Climbing Actuation. [J/OL].Chinese Journal of Polymer Science 401-9(2022), DOI: 10.1007/s10118-022-2858-2.
² 24. Lei Tian*, Liu Y, Wang D, et al. Particle-Click-Particle: Colloidal Clusters from Click Seeded Emulsion Polymerization. Polymer Chemistry, 2022, 13, 1084-1089
2021年
² 23. Jia, Man; Liu, Huichao; Yang, Guang; Zhang, Shuo; Yang, Jinglong; Tian, Lei*; Zhu, Caizhen*; Xu, Jian*. ACS Applied Materials & Interfaces. 2021, 13(14): 16887-16894
² 22. Lei Tian*, Li B, Li X, et al. Janus dimers from tunable phase separation and reactivity ratios. Polymer Chemistry, 2020, 11(28): 4639-4646.
² 21. Lei Tian*, Li B, Zhang Q, et al. Polymer Brush-Induced Hollow Colloids via Diffusion-Controlled Silication[J]. Langmuir, 2020, 36(42): 12678-12683.
2020年以前
² 20. Lei Tian, Xiangjie Li, Panpan Zhao, et al. Generalized Approach for Fabricating Monodisperse Anisotropic Microparticles via Single-Hole Swelling PGMA Seed Particles. Macromolecules 2015, 48, 7592−7603.
² 19. Lei Tian, Xue Li, Panpan Zhao, et al. Fabrication of Liquid Protrusions on NonCross-Linked Colloidal Particles for Shape-Controlled Patchy Microparticles. Macromolecules 2016, 49, 9626-9636.
² 18. Xue Li, Lei Tian, Zafar Ali, et al. Design of flexible dendrimer-grafted flower-like magnetic microcarriers for penicillin G acylase immobilization. Journal of Materials Science, 2018, 53.2: 937-947.
² 17. Dewei Wan, Lei Tian, Xue Li, et al. A versatile strategy for enzyme immobilization: Fabricating lipase/inorganic hybrid nanostructures on macroporous resins with enhanced catalytic properties. Biochemical Engineering Journal, 2018, 139: 101-108.
² 16. Lei Tian, Li X, Wan D, et al. Large-Scale Fabrication of Polymer Ellipsoids with Controllable Patches via Viscosity-Induced Deformation of Spherical Particles. Polym. Chem., 2017, 8, 3774–3777. (Cover)
² 15. Lei Tian, Xue Li, Dewei Wan, et al. Fast Swelling Strategy for Flower-Like Micro-Sized Colloidal Surfactants with Controllable Patches by Regulating the Tg of Seed Particles. Polym. Chem., 2017, 8, 5327-5335.
² 14. Lei Tian, Xue Li, Dewei Wan, et al. Self-Stripping of Free-Standing Microparticle Gel Membranes Driven by Asymmetric Swelling. J. Mater. Chem. C 2017, 5, 7830-7836.
² 13. Lei Tian, Xue Li, Panpan Zhao, et al. Impressed pressure-facilitated seeded emulsion polymerization: design of fast swelling strategies for massive fabrication of patchy microparticles. Polym. Chem., 2016, 7, 7078–7085.
² 12. Zafar Ali, Lei Tian, B Zhang, et al. Synthesis of Fibrous and non-fibrous mesoporous silica Magnetic yolk–shell microspheres as a recyclable support for immobilization of Candida rugosa Lipase. Enzyme and Microbial Technology, 2017, 103: 42-52.
² 11. Lei Tian, Panpan Zhao, Xue Li, et al. Large-Scale Fabrication of Polymer Microcavities with Adjustable Openings and Surface Roughness Regulated by the Polarity of both Seed Surface and Monomers. Macromol. Rapid Commun. 2016, 37, 47−52. (cover)
² 10. Lei Tian, Panpan Zhao, Xue Li, et al. Design of Raspberry-Shaped Microcarriers with Adjustable Protrusions and Functional Groups for Improvement of Lipase Immobilization and Biocatalysis: Environment Friendly Esterification of Oleic Acid for Biodiesel. ChemCatChem 2016, 8, 2576. (cover)
² 9. Panpan Zhao, Lei Tian, Xue Li, et al. Effect of the Structure and Length of Flexible Chains on Dendrimers Grafted Fe3O4@SiO2/PAMAM Magnetic Nanocarriers for Lipase Immobilization. ACS Sustainable Chem. Eng., 2016, 4, 6382–6390.
² 8. Zafar Ali, Lei Tian, Panpan Zhao, et al. Immobilization of lipase on mesoporous silica nanoparticles with hierarchical fibrous pore. Journal of Molecular Catalysis B, 2016, 134, 129–135.
² 7. Xiangjie Li, Jingjing Zhou, Lei Tian, et al. Effect of crosslinking degree and thickness of thermosensitive imprinted layers on recognition and elution efficiency of protein imprinted magnetic microspheres. Sensors and Actuators B: Chemical, 2016, 225, 436-445.
² 6. Zafar Ali, Lei Tian, Panpan Zhao, et al. Micron-sized flower-like Fe3O4@GMA magnetic porous microspheres for lipase immobilization. RSC Adv., 2015, 5, 92449-92455.
² 5. Xiangjie Li, Baoliang Zhang, Lei Tian, et al. Improvement of recognition specificity of surface protein-imprinted magnetic microspheres by reducing nonspecific adsorption of competitors using 2-methacryloyloxyethyl phosphorylcholine. Sensors and Actuators B: Chemical, 2015, 208, 559-568.
² 4. Baoliang Zhang, Hepeng Zhang, Lei Tian, et al. Magnetic microcapsules with inner asymmetric structure: Controlled preparation, mechanism, and application to drug release. Chemical Engineering Journal, 2015, 275, 235-244.
² 3. Xiangjie Li, Jingjing Zhou, Lei Tian, et al. Bovine serum albumin surface imprinted polymer fabricated by surface grafting copolymerization on zinc oxide rods and its application for protein recognition. Journal of separation science, 2015, 38(19), 3477-3486.
² 2. Lei Tian, Baoliang Zhang, Xiangjie Li, et al. Facile fabrication of Fe3O4@PS/PGMA magnetic Janus particles via organic–inorganic dual phase separation. RSC Adv. 2014, 4, 27152.
² 1. Xiangjie Li, Baoliang Zhang, Lei Tian, et al. Effect of carboxyl density at the core–shell interface of surface-imprinted magnetic trilayer microspheres on recognition properties of proteins [J]. Sensors and Actuators B: Chemical, 2014, 196, 265-271.
会议论文
1. 2021年全国高分子学术论文报告会,学术报告
2. 2015年全国高分子学术论文报告会,学术报告
3. 中国化学会第30届学术年会
4. 2017年中国化学会胶体与界面会议
5. 2017年微纳米机器国际会议
6. Janus材料学术沙龙,北京
专利:
2.一种表面褶皱单分散固定化酶载体的制备方法, 2016, ZL20141****4505.X
1.具有自剥离性能的自支撑超粒子凝胶薄膜的制备方法, 2019, ****10905490.9
2023年
² 29. Dai Wang, Hui Xie, Qiang Liu, Kexin Mu, Zhennuo Song, Weijian Xu, Lei Tian*, Caizhen Zhu, and Jian Xu. Low-Cost, High-Strength Cellulose-based Quasi-Solid Polymer Electrolyte for Solid-State Lithium-Metal Batteries. Angew. Chem. Int. Ed. 2023, e202302767. 该论文入选 Angew. Chem. Int. Ed. 期刊 VIP(Very Important Paper)论文.
2022年
² 28. Lei Tian, Jiji Tan, Dai Wang, Weiliang Dong, Haiyu Huang, Xintong Li, Caizhen Zhu, Jian Xu. Transient materials from hypersensitive ionic polymer fibers. Chemical Engineering Journal, 2023, 454, 140549.
² 27. 王岱,田雷,朱才镇,徐坚。固态聚合物电解质研究进展。高分子通报 。稿号:GFZTB-2022-0251.R1.
² 26. Lei Tian* #, Jiji Tan#, Weiliang Dong, Bo Yang, Cuihua Li, Dai Wang, Haiyu Huang, Xintong Li, Caizhen Zhu*, Jian Xu. Wireless Autonomous Soft Crawlers for Adjustable Climbing Actuation. [J/OL].Chinese Journal of Polymer Science 401-9(2022), DOI: 10.1007/s10118-022-2858-2.
² 25. Lei Tian*, Liu Y, Wang D, et al. Particle-Click-Particle: Colloidal Clusters from Click Seeded Emulsion Polymerization. Polymer Chemistry, 2022, 13, 1084-1089
2021年
² 24. Jia, Man; Liu, Huichao; Yang, Guang; Zhang, Shuo; Yang, Jinglong; Tian, Lei*; Zhu, Caizhen*; Xu, Jian*. ACS Applied Materials & Interfaces. 2021, 13(14): 16887-16894
² 23. Zheng Tang, Chaofan Chang, Feng Bao , Lei Tian, Huichao Liu, Mingliang Wang, Caizhen Zhu * and Jian Xu. Feasibility of Predicting Static Dielectric Constants of Polymer Materials: A Density Functional Theory Method[J]. Polymers, 2021, 13(2): 284.
² 22. Lei Tian*, Li B, Li X, et al. Janus dimers from tunable phase separation and reactivity ratios. Polymer Chemistry, 2020, 11(28): 4639-4646.
² 21. Lei Tian*, Li B, Zhang Q, et al. Polymer Brush-Induced Hollow Colloids via Diffusion-Controlled Silication[J]. Langmuir, 2020, 36(42): 12678-12683.
2020年以前
² 20. Lei Tian, Xiangjie Li, Panpan Zhao, et al. Generalized Approach for Fabricating Monodisperse Anisotropic Microparticles via Single-Hole Swelling PGMA Seed Particles. Macromolecules 2015, 48, 7592−7603.
² 19. Lei Tian, Xue Li, Panpan Zhao, et al. Fabrication of Liquid Protrusions on NonCross-Linked Colloidal Particles for Shape-Controlled Patchy Microparticles. Macromolecules 2016, 49, 9626-9636.
² 18. Xue Li, Lei Tian, Zafar Ali, et al. Design of flexible dendrimer-grafted flower-like magnetic microcarriers for penicillin G acylase immobilization. Journal of Materials Science, 2018, 53.2: 937-947.
² 17. Dewei Wan, Lei Tian, Xue Li, et al. A versatile strategy for enzyme immobilization: Fabricating lipase/inorganic hybrid nanostructures on macroporous resins with enhanced catalytic properties. Biochemical Engineering Journal, 2018, 139: 101-108.
² 16. Lei Tian, Li X, Wan D, et al. Large-Scale Fabrication of Polymer Ellipsoids with Controllable Patches via Viscosity-Induced Deformation of Spherical Particles. Polym. Chem., 2017, 8, 3774–3777. (Cover)
² 15. Lei Tian, Xue Li, Dewei Wan, et al. Fast Swelling Strategy for Flower-Like Micro-Sized Colloidal Surfactants with Controllable Patches by Regulating the Tg of Seed Particles. Polym. Chem., 2017, 8, 5327-5335.
² 14. Lei Tian, Xue Li, Dewei Wan, et al. Self-Stripping of Free-Standing Microparticle Gel Membranes Driven by Asymmetric Swelling. J. Mater. Chem. C 2017, 5, 7830-7836.
² 13. Lei Tian, Xue Li, Panpan Zhao, et al. Impressed pressure-facilitated seeded emulsion polymerization: design of fast swelling strategies for massive fabrication of patchy microparticles. Polym. Chem., 2016, 7, 7078–7085.
² 12. Zafar Ali, Lei Tian, B Zhang, et al. Synthesis of Fibrous and non-fibrous mesoporous silica Magnetic yolk–shell microspheres as a recyclable support for immobilization of Candida rugosa Lipase. Enzyme and Microbial Technology, 2017, 103: 42-52.
² 11. Lei Tian, Panpan Zhao, Xue Li, et al. Large-Scale Fabrication of Polymer Microcavities with Adjustable Openings and Surface Roughness Regulated by the Polarity of both Seed Surface and Monomers. Macromol. Rapid Commun. 2016, 37, 47−52. (cover)
² 10. Lei Tian, Panpan Zhao, Xue Li, et al. Design of Raspberry-Shaped Microcarriers with Adjustable Protrusions and Functional Groups for Improvement of Lipase Immobilization and Biocatalysis: Environment Friendly Esterification of Oleic Acid for Biodiesel. ChemCatChem 2016, 8, 2576. (cover)
² 9. Panpan Zhao, Lei Tian, Xue Li, et al. Effect of the Structure and Length of Flexible Chains on Dendrimers Grafted Fe3O4@SiO2/PAMAM Magnetic Nanocarriers for Lipase Immobilization. ACS Sustainable Chem. Eng., 2016, 4, 6382–6390.
² 8. Zafar Ali, Lei Tian, Panpan Zhao, et al. Immobilization of lipase on mesoporous silica nanoparticles with hierarchical fibrous pore. Journal of Molecular Catalysis B, 2016, 134, 129–135.
² 7. Xiangjie Li, Jingjing Zhou, Lei Tian, et al. Effect of crosslinking degree and thickness of thermosensitive imprinted layers on recognition and elution efficiency of protein imprinted magnetic microspheres. Sensors and Actuators B: Chemical, 2016, 225, 436-445.
² 6. Zafar Ali, Lei Tian, Panpan Zhao, et al. Micron-sized flower-like Fe3O4@GMA magnetic porous microspheres for lipase immobilization. RSC Adv., 2015, 5, 92449-92455.
² 5. Xiangjie Li, Baoliang Zhang, Lei Tian, et al. Improvement of recognition specificity of surface protein-imprinted magnetic microspheres by reducing nonspecific adsorption of competitors using 2-methacryloyloxyethyl phosphorylcholine. Sensors and Actuators B: Chemical, 2015, 208, 559-568.
² 4. Baoliang Zhang, Hepeng Zhang, Lei Tian, et al. Magnetic microcapsules with inner asymmetric structure: Controlled preparation, mechanism, and application to drug release. Chemical Engineering Journal, 2015, 275, 235-244.
² 3. Xiangjie Li, Jingjing Zhou, Lei Tian, et al. Bovine serum albumin surface imprinted polymer fabricated by surface grafting copolymerization on zinc oxide rods and its application for protein recognition. Journal of separation science, 2015, 38(19), 3477-3486.
² 2. Lei Tian, Baoliang Zhang, Xiangjie Li, et al. Facile fabrication of Fe3O4@PS/PGMA magnetic Janus particles via organic–inorganic dual phase separation. RSC Adv. 2014, 4, 27152.
² 1. Xiangjie Li, Baoliang Zhang, Lei Tian, et al. Effect of carboxyl density at the core–shell interface of surface-imprinted magnetic trilayer microspheres on recognition properties of proteins [J]. Sensors and Actuators B: Chemical, 2014, 196, 265-271.
会议论文
1. 2021年全国高分子学术论文报告会,学术报告
2. 2015年全国高分子学术论文报告会,学术报告
3. 中国化学会第30届学术年会
4. 2017年中国化学会胶体与界面会议
5. 2017年微纳米机器国际会议
6. Janus材料学术沙龙,北京
专利:
2.一种表面褶皱单分散固定化酶载体的制备方法, 2016, ZL20141****4505.X
1.具有自剥离性能的自支撑超粒子凝胶薄膜的制备方法, 2019, ****10905490.9
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深圳大学化学与环境工程学院 邮编:518071 电话:0755-26536141
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