团队名称：高性能弹性体材料团队

团队介绍：针对重大科研任务及战略需求建立了协作创新链条，组建从分子理性设计、聚合方法、结构调控、成型加工、规模化制备到性能预测与使役评价的链条式应用基础研究队伍，团队目前近20人，其中正高级职称3人，副高级职称3人，中级职称3人。目标是解决我国产业链供应链安全的“卡脖子”关键核心技术背后的基础科学问题，为高性能弹性体材料产业的可持续发展提供知识积累和技术支撑。

主持的代表性科研项目/课题：

[1] 中国科学院战略性先导科技专项项目, 仿生橡胶合成及工程化，2020-2024.

[2] 国家科技部创新人才推进计划重点领域创新团队，2021-2024.

[3] 国家自然科学基金面上项目, 新型仿生合成橡胶的制备及其性能研究，2019-2022.

[4] 国家自然科学基金面上项目, 配位双烯烃聚合微观结构控制机理研究，2015-2018.

[5] XXXX计划重点基础研究项目课题， 2019-2022.

[6] XXXX支持项目课题, 轻量化EPDM橡胶分子结构设计及合成技术研究，2024-2025.

[7] 中国科学院“王宽诚-产研人才扶持计划”, 2017-2019.

[8] 中国科学院重点部署项目,插拔连接器用非金属材料的设计与制备，2021-2022.

[9] 中国科学院重点部署项目, 合成天然橡胶及其单体成套产业化技术-单体合成技术，2015-2018.

[10] 吉林省重点研发计划项目, 新型可控长链支化三元乙丙橡胶关键技术研发， 2018-2020.

[11] 吉林省重点研发计划项目,  高寒地带先进轨道交通用橡胶制品的研制开发，2020~20228.

[12] 吉林省重点研发计划项目, 高性能绿色轮胎合成橡胶制备及应用技术，2016~2018.

[13] 吉林省重点人才项目, 高性能仿生合成橡胶全链条产业化技术开发，2014-2016.

[14] 吉林省发改委重点项目“人工合成天然橡胶-稀土异戊橡胶”关键凝聚后处理反应设备的研制开发,  2014-2016.

[15] 吉林省与中科院科技合作高技术产业化专项资金项目，碳四碳五产业链高值化综合利用-异戊二烯单体流化床反应器关键技术开发，2019-2021.

[16] 中阿国际合作项目，高性能绿色轮胎合成橡胶系列产品研发, 2019-2020.  

[17] 中国科学院百人计划项目, 2012-2013.

[18] 国家科技支撑计划课题, 国家科技支撑计划项目课题-稀土异戊橡胶溶液聚合工艺工程研究, 2007-2009.

代表性论文（通讯）：

[1] Dongying Yan, Long Cui, Weifeng Fan, Ruihui Gan*, Chenxi Bai*. Tailoring metal-support interaction boosted thermal catalytic heterolytic hydrogenation for biomass upgrading. Chemical Engineering Journal. 2026, 531, 173717. IF:13.3.SCI;

[2] Linyu Li, Zhen Niu, Hang Zheng, Zhanwei Feng, Xiaoning Hou, Weifeng Fan, Jianyun He,* Chenxi Bai*. High-Molecular-Weight Poly(fluorophenylsiloxane) Elastomers via Postpolymerization Macromolecular Chain Exchange Reaction for Optimized Comprehensive Properties. Acs Applied Polymer Materials. 2025, 7, 15111-15124. IF:4.7.SCI;

[3] Linyu Li, Hang Zheng, Zhu Xia, Zhanwei Feng, Xiaoning Hou, Jianyun He, Yuanwei Yan, Zhen Niu*, Chenxi Bai*. Ultralow-Temperature-Resistant Poly(ethylfluorophenylsiloxane) Elastomers Synthesized by Postpolymerization Macromolecular Chain Exchange Reaction. Macromolecules. 2025, 58, 4746-4757.  IF:5.2.SCI;

[4] Ruilin Feng, Yanlong Qi, Long Cui, Chenxi Bai*. Direct and efficient catalytic conversion of biomass-derived 2-methyltetrahydrofuran to 1,3-pentadiene via acid-base coupling of lanthanum phosphate. Chemical Engineering Journal. 2024, 492, 152396. IF:13.2.SCI;

[5] Yinxin Yang, Zhu Xia, Lingyun Huang, Ruiyao Wu, Zhen Niu, Quanquan Dai, Jianyun He*, Chenxi Bai*. Renewable Vanillin-Based Thermoplastic Polybutadiene Rubber: High Strength, Recyclability, Self-Welding, Shape Memory, and Antibacterial Properties. ACS Applied Materials & Interfaces. 2022, 14, 47025-47035. IF:8.2.SCI;

[6] Lingyun Huang, Yinxin Yang, Zhen Niu, Ruiyao Wu, Weifeng Fan, Quanquan Dai, Jianyun He*, Chenxi Bai*. Boronic ester bonds crosslinked vitrimer elastomers with mechanical robustness, shape memory, self-healing and recyclability properties. Composites Science And Technology. 2022, 228, 109621. IF:9.1.SCI;

[7] Highly Selective Production of Renewable 1,3-Pentadiene from 1,4-Pentanediol over an Acid–Base (K–Ce/ZrSi) Catalyst by Adjusting the Parallel-Reaction Pathway. Industrial & Engineering Chemistry Research. 2023, 62, 9, 4164–4174  IF:3.9.SCI;

[8] Yinxin Yang, Lingyun Huang, Ruiyao Wu, Zhen Niu, Weifeng Fan, Quanquan Dai, Long Cui, Jianyun He*, Chenxi Bai*. Self-Strengthening, Self-Welding, Shape Memory, and Recyclable Polybutadiene-Based Material Driven by Dual-Dynamic Units. ACS Applied Materials & Interfaces. 2022, 14, 3344-3355. IF:8.2.SCI;

[9] Yanlong Qi, Ruilin Feng, Shijun Liu, Long Cui, Quanquan Dai, Chenxi Bai*.  Synergistic decarboxylation over Ce-doped Na/SiO₂ facilitating functionalized monomer production from furfural for manufacturing polymers. Green Chemistry. 2022, 24, 2240-2248.  IF:9.2.SCI;

[10] Shijun Liu, Yanlong Qi*, Ruilin Feng, Long Cui, Quanquan Dai, Chenxi Bai*. Multifunctional Ce/ZrSi Catalyst Synergistically Converting 1,4-Pentanediol Derived from Levulinic Acids to Renewable Pentadiene. ACS Sustainable Chemistry & Engineering. 2021, 9, 8341-8346. IF:7.3.SCI;

[11] Yanlong Qi, Shijun Liu, Long Cui, Quanquan Dai, Jianyun He, Wei Dong, Chenxi Bai*. Efficient Synthesis of a Nonlinear C5 1,3-Diol from Butanone and Formalin under Mild Conditions for Isoprene Production. ACS Sustainable Chemistry & Engineering. 2020, 8, 10323-10329. IF:7.3.SCI; IF:7.3.SCI;

[12] Yinxin Yang, Lingyun Huang, Ruiyao Wu, Weifeng Fan, Quanquan Dai, Jianyun He*, Chenxi Bai*. Assembling of Reprocessable Polybutadiene-Based Vitrimers with High Strength and Shape Memory via Catalyst-Free Imine-Coordinated Boroxine. ACS Applied Materials & Interfaces. 2020, 12, 33305-33314. IF:8.2.SCI;

[13] Yanlong Qi, Zaizhi Liu, Shijun Liu, Long Cui, Quanquan Dai, Chenxi Bai*. Production of a Renewable Functionalized 1,3-Diene from Furfural−Acetone Adduct over Supported Heteropolyacid Catalysts. ACS Sustainable Chemistry & Engineering. 2020, 8, 7214-7224. IF:7.3.SCI;

[14] Yanlong Qi, Shijun Liu, Long Cui, Quanquan Dai, Jianyun He, Wei Dong, Chenxi Bai*. Production of a renewable 1,3–diene containing a functional group from furfural–acetone adduct in a fixed–bed reactor. Green Chemistry. 2019, 21, 3911-3919. IF:9.2.SCI;

[15] Quanquan Dai, Xuequan Zhang, Yanming Hu, Jianyun He, Ce Shi, Yunqi Li, Chenxi Bai*. Regulation of the cis-1,4-and trans-1,4-Polybutadiene Multiblock Copolymers via Chain Shuttling Polymerization Using a Ternary Neodymium Organic Sulfona te Catalyst. Macromolecules. 2017, 50, 7887-7894. IF:5.2.SCI;

[16] Yinxin Yang, Lingyun Huang, Quanquan Dai, Long Cui, Shijun Liu, Yanlong Qi, Wei Dong, Jianyun He*, Chenxi Bai*. Fabrication of beta-cyclodextrin-crosslinked epoxy polybutadiene/hydroxylated boron nitride nanocomposites with improved mechanical and thermal-conducting properties. Journal of Materials Research and Technology. 2019, 8, 5853-5861. IF:6.6.SCI;

[17] Ruilin Feng, Yanlong Qi*, Shijun Liu, Long Cui, Quanquan Dai, Chenxi Bai*. An In-situ Self-regeneration Catalyst for the Production of Renewable 1,3-pentadiene. Chemistry-a European Journal. 2021, 27, 9495-9498. IF:3.7.SCI;

[18] Xiaoning Hou, Zhu Xia, Zhanwei Feng, Linyu Li, Hang Zheng, Chenxi Bai*. Tough and Recyclable Ethylene–Vinyl Acetate Elastomers Based on the Stress-Induced Phase Separation Strategy. Acs Applied Polymer Materials. 2025, 7, 5491-5500. IF:4.7.SCI;

[19] Zhu Xia, Zhanwei Feng, Zhen Niu, Jianyun He, Weifeng Fan, Chenxi Bai*. Biomass crosslinked fluorinated methacrylate elastomer for stress sensors with recyclability, reprocessability, remoldability, and hydrophobicity. European Polymer Journal. 2024, 209, 112888. IF:6.3.SCI;

[20] Zhen Niu, Ruiyao Wu, Zhu Xia, Weifeng Fan, Jianyun He*, Chenxi Bai*. Macromolecular Postpolymerization of Siloxane Exchange to Assemble Multiple Siloxane Linkages. Acs Applied Polymer Materials. 2023, 6, 1033-1043. IF:4.7.SCI;

[21] Zhu Xia, Xiaoning Hou, Hang Zheng, Linyu Li, Zhanwei Feng, Jianyun He*, Chenxi Bai*. Reprocessable Fluoro-Glycidyl Acrylate-Butadiene Rubbers via In Situ Cross-Linker Chain Extension and Hydrophobic Silica: Achieving Enhanced Tensile Strength and Surface Fluorine Enrichment. Acs Applied Polymer Materials. 2025, 7, 5077−5088. IF:4.7.SCI;

[22] Zhen Niu, Ruiyao Wu, Lingyun Huang, Zhu Xia, Weifeng Fan, Quanquan Dai, Jianyun He,* Chenxi Bai*. Low-temperature oil resistance ester polysiloxane with excellent reprogrammable, reprocessable performance. Materials Today Chemistry. 2023, 33, 101724. IF:6.7.SCI;

[23] Zhu Xia. Zhanwei Feng. Ruiyao Wu. Zhen Niu. Jianyun He*. Chenxi Bai*. Tough, Hydrophobic, Pressure-Resistant, and Self-Cleaning Underwater Engineering Materials Based on Copolymerization of Butadiene and Trifluoroethyl Methacrylate. Acs Applied Polymer Materials. 2023, 5, 8241-8249. IF:4.7.SCI;

[24] Ruiyao Wu, Zhen Niu, Lingyun Huang, Zhu Xia, Zhanwei Feng, Yanlong Qi, Quanquan Dai, Long Cui, Jianyun He*, Chenxi Bai*. Vanadium complexes bearing the bulky bis(imino)pyridine ligands: Good thermal stability toward ethylene polymerization. European Polymer Journal. 2022, 180, 111569. IF:6.3.SCI;

[25] Zhen Niu, Ruiyao Wu, Lingyun Huang, Yinxin Yang, Zhu Xia, Weifeng Fan, Wu Sun, Quanquan Dai, Jianyun He*, Chenxi Bai*. A Poly(dimethyl-co-methylvinyl)siloxane-based elastomer with excellent ultra-low temperature elasticity driven by flexible alkyl branches. European Polymer Journal. 2022, 174, 111303. IF:6.3.SCI

[26] Ruiyao Wu, Zhen Niu, Zhu Xia, Jianyun He,* Chenxi Bai*. Synthesis and dynamic crosslinking of a hydroxyl-functionalized ethylene-propylene copolymer: Preparation of an elastomer with reprocessability and shape memory properties. Polymer. 2023, 286, 126396. IF:4.5.SCI;

[27] Zhen Niu, Ruiyao Wu, Yinxin Yang, Lingyun Huang, Weifeng Fan, Quanquan Dai, Long Cui, Jianyun He*, Chenxi Bai*. Recyclable, robust and shape memory vitrified polyisoprene composite prepared through a green methodology. Polymer. 2021, 228, 123864. IF:4.5.SCI;

[28] Lingyun Huang, Yinxin Yang, Ruiyao Wu, Weifeng Fan, Quanquan Dai, Jianyun He*, Chenxi Bai*. Boron nitride and hyperbranched polyamide assembled recyclable polyisoprene vitrimer with robust mechanical properties, high thermal conductivity and remoldability. Polymer. 2020, 208, 122964. IF:4.5.SCI;

[29] Jianyun He, Lingyun Huang, Yinxin Yang, Yanlong Qi, Long Cui, Quanquan Dai*, Chenxi Bai*. High T_g and thermostable phytic Acid−Cured polynorbornene-based polymer by a Palladium(Ⅱ) complex bearing iminophenyl oxazolinylphenylamines ligand. Polymer. 2019, 172, 196-204. IF:4.5.SCI;

[30] Jian-Yun He, Long Cui, Yan-Long Qi, Quan-Quan Dai*, Chen-Xi Bai*. Neodymium Organic Sulfonate Complexes: Tunable Electronegativity/Steric Hindrance and Application in Controlled Cis-1,4-polymerization of Butadiene. Chinese Journal of Polymer Science. 2019, 37, 208-215. IF:4.0.SCI;

[31] Lingyun Huang, Yinxin Yang, Zhen Niu, Ruiyao Wu, Weifeng Fan, Quanquan Dai, Jianyun He*, Chenxi Bai*.  Catalyst-Free Vitrimer Cross-Linked by Biomass-Derived Compounds with Mechanical Robustness, Reprocessability, and Multishape Memory Effects. Macromolecular Rapid Communications, 2021, 42, 2100432. IF:4.3.SCI;

[32] Ruiyao Wu, Zhen Niu, Zhu Xia, Jianyun He*, Chenxi Bai*. Vanadium complexes bearing 8-anilide-5,6,7-trihydroquinoline ligands for ethylene (co-)polymerization. Dalton Transactions. 2023, 52, 8636-8644.  IF:3.3.SCI;

[33] Ruiyao Wu, Zhen Niu, Lingyun Huang, Yinxin Yang, Zhu Xia, Weifeng Fan, Quanquan Dai, Long Cui, Jianyun He*, Chenxi Bai*. Thermally stable vanadium complexes supported by the iminophenyl oxazolinylphenylamine ligands: synthesis, characterization and application for ethylene (co-)polymerization. Dalton Transactions. 2021, 50, 16067-16075. IF:3.3.SCI;

[34] Jianyun He, Shijun Liu, Yunqi Li, Shangjing Zeng, Yanlong Qi, Long Cui, Quanquan Dai*, Chenxi Bai*. Fabrication of boron nitride nanosheet/polymer composites with tunable thermal insulating properties. New Journal of Chemistry. 2019, 43, 4878-4885. IF:2.5.SCI;

[35] Yanlong Qi, Shijun Liu, Zaizhi Liu, Long Cui, Lingyun Huang, Yinxin Yang, Ruiyao Wu, Quanquan Dai, Jianyun He, Wei Dong, Chenxi Bai*. Selectively creating oxygen vacancies on PrCe/SiO2 catalysts for the transformation of a furfural-acetone adduct into a functionalized 1,3-diene. Catalysis Science & Technology. 2019, 9, 6875-6883. IF:4.2. SCI;

[36] Yanlong Qi, Fengchao Cui, Janyun He, Long Cui, Yunqi Li, Quanquan Dai, Chenxi Bai*. Insight into performance of lactam-based Brønsted-acidic catalysts for Prins condensation and their self-separation in water. Molecular Catalysis. 2018, 445, 80-86. IF:4.9.SCI;

[37] Yanlong Qi, Shijun Liu, Long Cui, Quanquan Dai, Chenxi Bai*. Depositing Different Carbon Species on MoP to Enhance Its Activity for Isoprene Production in Different Ways. Industrial & Engineering Chemistry Research. 2020, 59, 5491-5499. IF:4.8.SCI;

[38] Yanlong Qi, Shijun Liu, Long Cui, Quanquan Dai, Chenxi Bai*. Converting formaldehyde-methylethylketone adduct to a nonlinear C5 1,3-diol over Pt-ceria catalysts for isoprene production. Applied Catalysis A. 2020, 603, 117745. IF:4.3.SCI;

[39] Yanlong Qi, Long Cui, Yunqi Li, Quanquan Dai, Chenxi Bai*. Development a facile way to restore reactivity of deactivated phosphate catalysts for Prins reaction with the assistance of carbon deposition. Catalysis Communications. 2018, 106, 11-15. IF:4.5.SCI;

[40] Quanquan Dai, Xiangyu Jia, Feng Yang, Chenxi Bai*, Yanming Hu, Xuequan Zhang. Iminopyridine-Based Cobalt(II) and Nickel(II) Complexes: Synthesis, Characterization, and Their Catalytic Behaviors for 1,3-Butadiene Polymerization. Polymers. 2016, 8, 12. IF:4.0.SCI;

[41] Dongying Yan, Ruilin Feng*, Yanlong Qi, Chenxi Bai*. Highly Selective Production of Renewable 1,3-Pentadiene from 1,4-Pentanediol over an Acid-Base (K-Ce/ZrSi) Catalyst by Adjusting the Parallel-Reaction Pathway. Industrial & Engineering Chemistry Research. 2023, 62, 4164-4174. IF:3.9.SCI;

[42] Zhanwei Feng, Quanquan Dai, Jianyun He*, Chenxi Bai*. Biomimetic Synthesis and Properties of Polyisoprene-based Rubber Grafted with Poly(amino acid). ACTA POLYM SIN.  2023.54, 593-600. IF:6.3.SCI;

[43] Dongying Yan, Chenxi Bai*. High-selective dehydration of bio-alcohols to oleffns over vanadium-doped hydroxyapatite catalyst with engineered defect sites. Journal of Alloys and Compounds. 2025, 1036, 181853. IF:4.5.SCI;

[44] Wei Dong, Jianyun He, Zhu Xia, Weifeng Fan, Wu Sun, Chenxi Bai*. Synthesis and performance study of hydrogenated and isocyanated polybutadiene liquid rubber for energy efficient tires. Polymer. 2025, 334, 128554. IF:4.8.SCI;

[45] Ruilin Feng, Yanlong Qi*, Shijun Liu, Long Cui, Quanquan Da, Chenxi Bai*. Production of renewable 1,3-pentadiene over LaPO4 via dehydration of 2,3-pentanediol derived from 2,3-pentanedione. APPL CATAL A-GEN. 2022, 633, 118514. IF:6.9.SCI;

[46] Shijun Liu, Yanlong Qi, Long Cui, Quanquan Dai, Shangjing Zeng, Chenxi Bai*. Controllable synthesis of silver anchored N-doped yolk-shell carbon@mSiO2 spheres and their application for the catalytic reduction of 4-nitrophenol. Appl. Surf. Sci. 2019, 493, 1013-1020. IF:4.6.SCI;

[47] Shangjing Zeng, Shijun Liu, Yanlong Qi, Long Cui, Quanquan Dai, Chenxi Bai*. Facile synthesis of hierarchically porous carbonaceous materials derived from olefin/aldehyde precursors using silica as templates.  RSC ADV. 2018, 8, 11462. IF:4.6.SCI;

[48] Yanlong Qi, Long Cui, Quanquan Dai, Yunqi Li, Chenxi Bai*. Assembly line synthesis of isoprene from formaldehyde and isobutene over SiO₂-supported MoP catalysts with active deposited carbon.  RSC ADV. 2017, 7, 37392. IF:4.6.SCI;

代表性发明专利（已授权）：

[1]  一种稀土异戊橡胶绝热聚合方法(ZL 2010 1 0580720.1), 2010    

[2]  一种支化度可控的EVA合成的调控方法及合成方法、一种EVOH树脂及其合成方法(ZL 2020 1 1626512.0), 2020   

[3]  一种自由基可控释放的合成EVA的调控方法及合成方法、一种EVOH树脂及其合成方法(ZL 2020 1 1626536.6), 2020    

[4]  一种催化糠醛及其衍生物转化合成2-乙烯基呋喃的方法(ZL 2021 1 0171660.6), 2021    

[5]  一种催化糠醛及其衍生物转化合成2-乙烯基呋喃的方法(ZL 2021 1 0171660.6), 2021    

[6]  一种用于合成异戊二烯的催化剂及其制备方法，以及异戊二烯的合成方法(ZL 2022 1 0842138.0), 2022    

[7]  一种催化合成异戊二烯的催化剂及其制备方法，以及异戊二烯的制备方法(ZL 2022 1 0843091.X), 2022    

[8]  一种基于秸秆的呋喃乙烯基弹性体及其制备方法(ZL 2022 1 1253324.7), 2022    

[9]   一种生物质糖基化合物催化转化合成烯烃型单体的方法及可逆固化液体橡胶的制备(ZL 2022 1 1445882.3), 2022    

[10]  一种铜基多功能纳米催化剂及其应用、一种基于烯醛液相法连续化合成异戊二烯的方法(ZL 2022 1 1445946.X), 2022.  

[11]  一种用于烯醛一步法合成异戊二烯的催化剂及其制备方法(ZL 2016 1 0161038.6), 2016    

[12]  一种自支撑金属改性Beta分子筛的制备方法及其在合成异戊二烯中的应用(ZL 2017 1 1190821.6), 2017    

[13]  一种自支撑金属改性ZSM-5分子筛的制备方法及其在合成异戊二烯中的应用(ZL 2017 1 1189770.5), 2017    

[14]  一种烯醛气相法合成异戊二烯反应废气的处理方法(ZL 2017 1 1430139.x), 2017    

[15]  一种氟硅异戊橡胶及其制备方法、宽温域高强度航空轮胎橡胶材料及其制备方法(ZL 2018 1 0354409.1), 2018    

[16]  一种改性的钙钛矿型催化剂及其制备方法、在催化合成异戊二烯中的应用(ZL 2017 1 1189767.3), 2017    

[17]  一种改性氟硅异戊橡胶及其制备方法、高强度航空轮胎橡胶材料及其制备方法(ZL 2018 1 0355068.X), 2018    

[18]  一种失活催化剂的再利用方法和复合催化剂(ZL 2017 1 1417187.5), 2017    

[19]  烯醛气相法合成异戊二烯产生的积碳催化剂的处理方法(ZL 2017 1 1431016.8), 2017    

[20]  一种碳层包覆的复合型催化剂及其制备方法、在催化合成异戊二烯中的应用(ZL 2017 1 1190785.3), 2017    

[21]  一种改性氟硅异戊橡胶及其制备方法、仿生型航空轮胎橡胶材料及其制备方法(ZL 2018 1 0353778.9), 2018    

[22]  一种催化糠醇/甲醇转化两步法合成呋喃乙烯类功能单体及催化剂应用(ZL 2020 1 1519333.7), 2020    

[23]  一种戊二醇的合成方法以及一种基于乳酸转化制备生物质基线性戊二烯的合成方法(ZL 2020 1 1608887.4), 2020    

[24]  一种全钢子午线轮胎胎体用橡胶组合物及其制备方法(ZL 2021 1 0486395.0), 2021    

[25]  一种酮类化合物改性聚丁二烯橡胶及其制备方法和硫化橡胶(ZL 2021 1 1333306.5), 2021    

[26]  一种轮胎胎侧用橡胶组合物及其制备方法(ZL 2021 1 0486386.1), 2021    

[27]  一种多肽改性聚丁二烯橡胶及其制备方法和硫化橡胶(ZL 2021 1 1337848.X), 2021    

[28]  一种功能化纳米环氧异戊橡胶及其在航空轮胎中的应用(ZL 2021 1 0534842.5), 2021    

[29]  一种酮类化合物改性丁二烯-异戊二烯共聚物橡胶及其制备方法和硫化橡胶(ZL 2021 1 1332242.7), 2021    

[30]  一种多肽改性丁二烯-异戊二烯共聚物橡胶及其制备方法和硫化橡胶(ZL 2021 1 1332676.7), 2021    

[31]  一种稀土催化剂的制备方法及其在双烯烃聚合和共聚合中的应用 (ZL 2019 10418514.1), 2019    

[32]  一种磷脂类化合物改性聚丁二烯橡胶及其制备方法和硫化橡胶(ZL 2021 1 1333291.2), 2021    

[33]  一种高强度航空轮胎胎面仿生橡胶及其制备方法、应用(ZL 2021 1 1332261.X), 2021    

[34]  一种基于氨基酸改性的仿生橡胶及其在制备航空轮胎胎面橡胶中的应用(ZL 2021 1  13336400.0), 2021    

[35]  一种高强度、高定伸应力的仿生橡胶及其制备方法和应用(ZL 2021 1 1333355.9), 2021 

[1] T/CSTM 01159—2023，稀土顺式聚丁二烯橡胶（NdBR），国家团体标准，2023-12

[2] T/CSTM 01158—2023，化学法合成异戊二烯，国家团体标准，2023-12

[3] T/CSTM 01157-2023， 耐低温丁二烯-异戊二烯橡胶（BIR），国家团体标准，2023-12

[4] T/CSTM 00024 -2019 ，稀土异戊橡胶（NdIR）及评价方法，国家团体标准，2019-05

[5] T/CSTM T/CITS 316—2025 ，汽车用丙烯酸酯橡胶制品通用规范，团体标准，2025-3

项目团队拥有合成、分析、加工及自主研发的仪器和设备