2024年：

1. Wu Q, Liu H, Xiong H, et al. Thermomechanically stable supramolecular elastomers inspired by heat shock proteins[J]. Materials Horizons, 2024. https://doi.org/10.1039/D3MH01737K

2. Teng Q, Huang Y, Wu H, et al. Self-healing polyurethane elastomer with ultra-high mechanical strength and enhanced thermal mechanical properties[J]. Polymer, 2024, 290: 126579. https://doi.org/10.1016/j.polymer.2023.126579

3. Kong L, Wu R, Zhang J, et al. High performance, self-adhesive and recyclable dynamic crosslinked waste rubber particle blends toward upcycling of waste rubber[J]. Green Chemistry, 2024. https://doi.org/10.1039/D3GC03440B

4. Wu H, Wang H, Luo M, et al. Mechanically robust, self-reporting and healable polyurethane elastomers by incorporating symmetric/asymmetric chain extenders[J]. Materials Horizons, 2024, 11, 1548-1559. https://doi.org/10.1039/D3MH01987J

5. Wang Y, Pan P, Liang H, et al. Hemostatic Tranexamic Acid-Induced Fast Gelation and Mechanical Reinforcement of Polydimethylacrylamide/Carboxymethyl Chitosan Hydrogel for Hemostasis and Wound Healing[J]. Biomacromolecules, 2024. https://doi.org/10.1021/acs.biomac.3c00999

6. Zhou J, Wu Q, Pan P, et al. A Shear-Stiffening Mouthguard with Excellent Shock Absorption Capability and Remoldability via a Dynamic Dual Network[J]. ACS Applied Bio Materials, 2024. https://doi.org/10.1021/acsabm.3c01134

7. Huang S, Zhang J, Kong L, et al. Fully Biosourced, Vulcanization-Free, and Thermal-Responsive Natural Rubber Material[J]. Macromolecules, 2024. https://doi.org/10.1021/acs.macromol.3c02221

8. Pang B, Luo E, Du M, et al. Fluorographene and carbon nanotubes fillers reinforced nitrile butadiene rubber with enhanced mechanical, wear and oil resistant properties[J]. Journal of Polymer Science, 2024. https://doi.org/10.1002/pol.20230778

9. Hou Y, Wu H, Wu Q, et al. Recyclable elastomers with high mechanical performance and vibration-damping property via triple dynamic bonds[J]. Polymer, 2024: 127161. https://doi.org/10.1016/j.polymer.2024.127161

10. Shu J, Teng Q, Zhang H, et al. Transparent and Soft Crack‐Resistant Bouligand Elastomers Inspired by Fish Scales[J]. Macromolecular Rapid Communications, 2024, 45(3): 2300526. https://doi.org/10.1002/marc.202300526

11. Huang C, Wu Q, Li X, et al. Silicone Bioadhesive with Shear-Stiffening Effect: Rate-Responsive Adhesion Behavior and Wound Dressing Application[J]. Biomacromolecules, 2024. https://doi.org/10.1021/acs.biomac.4c00525

12. Li W, Wu H, Huang Y, et al. Ultra‐Fast‐Healing Glassy Hyperbranched Plastics Capable of Restoring 26.4 MPa Tensile Strength within One Minute at Room Temperature[J]. Angewandte Chemie, 2024: e202408250.https://doi.org/10.1002/ange.202408250

13. Accepted for publication：Xiong Hui et al. Science China Materials;  Wang Hao et al. CCS Chemistry

2023年：

1. Huang Y, Li W, Yang Y, et al. Recyclable nacre-inspired elastomer via dynamic supramolecular nanosheets[J]. Composites Science and Technology, 2023, 232: 109867. https://doi.org/10.1016/j.compscitech.2022.109867

2. Wang Y, Xie Y, Xie X, et al. Compliant and Robust Tissue‐Like Hydrogels via Ferric Ion‐Induced of Hierarchical Structure[J]. Advanced Functional Materials, 2023: 2210224. https://doi.org/10.1002/adfm.202210224

3. Li W, Liu H, Wang H, et al. Biomimetic Hybrid Networks with Excellent Toughness and Self-Healing Ability in the Glassy State[J]. Chemistry of Materials, 2023. https://doi.org/10.1021/acs.chemmater.2c03266

4. Yang L, Wang Z, Wang H, et al. Self‐Healing, Reconfigurable, Thermal‐Switching, Transformative Electronics for Health Monitoring[J]. Advanced Materials, 2023: 2207742. https://doi.org/10.1002/adma.202207742

5. Jin B, Wang H, Xu H, et al. Bio-inspired nacre-like composites with excellent mechanical properties, gas-barrier function and fire-retardant performances based on self-assembly between hyperbranched poly (amido amine) s and montmorillonite[J]. RSC advances, 2023, 13(6): 3661-3668. https://doi.org/10.1039/D2RA07647K

6. Peng Y, Gu S, Wu Q, et al. High-Performance Self-Healing Polymers[J]. Accounts of Materials Research, 2023.https://doi.org/10.1021/accountsmr.2c00174

7. Wu W, Jin B, Xu H, et al. Low‐fuel permeation thermoplastic vulcanizates prepared from mutual miscible fluoroelastomer and P (VDF‐HFP)[J]. Polymer International.https://doi.org/10.1002/pi.6518

8. Xiong H, Yue T, Wu Q, et al. Self-healing bottlebrush polymer networks enabled via a side-chain interlocking design[J]. Materials Horizons.https://doi.org/10.1039/D3MH00274H

9. Wen J, Wu W, Xie Z, et al. Development of Piezoelectric Elastomers and Their Applications in Soft Devices[J]. Macromolecular Materials and Engineering, 2023: 2300101.https://doi.org/10.1002/mame.202300101

10. Xiong H, Zhang L, Gu S, et al. Mechanically Robust and Healable Bromobutyl Rubber Ionomer via Designing the Resonance Isomerization Effect[J]. Macromolecules, 2023, 56(14): 5326-5335.https://doi.org/10.1021/acs.macromol.3c00835

11. Wu Q, Peng Y, Xiong H, et al. A novel shear-stiffening supramolecular material derived from diboron structure[J]. Science China Materials, 2023: 1-10.https://doi.org/10.1007/s40843-023-2581-x

12. Luo X, Yuan Z, Xie X, et al. Amino acid-induced rapid gelation and mechanical reinforcement of hydrogels with low-hysteresis, self-recoverable and fatigue-resistant properties[J]. Materials Horizons, 2023.https://doi.org/10.1039/D3MH00483J

13. Shu J, Teng Q, Zhang H, et al. Transparent and Soft Crack‐Resistant Bouligand Elastomers Inspired By Fish Scales[J]. Macromolecular Rapid Communications, 2300526.https://doi.org/10.1002/marc.202300526

14. Xu Q, Wu R, Yuan Z, et al. Tough, Notch-Insensitive, Heat-Resistant Hydrogels Constructed by Vinylated Polylysine for Temporary Oilfield Water Plugging[J]. Industrial & Engineering Chemistry Research, 2023.https://doi.org/10.1021/acs.iecr.3c02851

15. Huang C, Zhou J, Gu S, et al. Mouthguards based on the shear-stiffening effect: excellent shock absorption ability with softness perception[J]. ACS Applied Materials & Interfaces, 2023.https://doi.org/10.1021/acsami.3c12648

16. Xiong H, Wu H, Zhang J, et al. Healable and Recyclable Polyurethane with Natural-Rubber-like Resilience via π-Type Tweezer Structure Stabilizing Dynamical Hard Domains[J]. Macromolecules, 2023. https://doi.org/10.1021/acs.macromol.3c01770

17. Wang C, Xu H, Xie Z, et al. Extrudable, robust and recyclable bio-based epoxy vitrimer via tailoring the topology of a dual dynamic-covalent-bond network[J]. Polymer, 2023: 126487. https://doi.org/10.1016/j.polymer.2023.126487

18. Xu Q J, Yuan Z Y, Wang C C, et al. Tough Semi-interpenetrating Polyvinylpyrrolidone/Polyacrylamide Hydrogels Enabled by Bioinspired Hydrogen-bonding Induced Phase Separation[J]. Chinese Journal of Polymer Science, 2023: 1-13. https://doi.org/10.1007/s10118-024-3066-z

19. Huang S Q, Zhang J Q, Zhu Y, et al. Revealing the structure-property difference of natural rubber prepared by different methods: protein and gel content are key factors[J]. Chinese Journal of Polymer Science, 2023: 1-11.https://doi.org/10.1007/s10118-024-3071-2

2022年：

1. Li W, Zhang L, Zhu Y, et al. Self-healing elastomers[J]. Recent Advances in Smart Self-Healing Polymers and Composites, 2022: 271-304. https://doi.org/10.1016/B978-0-12-823472-3.00015-1

2. Liu H, Shen Q, Zhang L, et al. A fast-healing and high-performance metallosupramolecular elastomer based on pyridine-Cu coordination[J]. Science China Materials, 2022: 1-9. https://doi.org/10.1007/s40843-021-1963-2

3. Zhang H, Shu J, Liu Z, et al. High-Performance Crack-Resistant Elastomer with Tunable “J-Shaped” Stress–Strain Behavior Inspired by the Brown Pelican[J]. ACS Applied Materials & Interfaces, 2022：22489-22496.   https://doi.org/10.1021/acsami.2c06646

4. Wang H, Peng W S, Wu Q, et al. Interplay of crosslinking structures and segmental dynamics in solid-liquid elastomers[J]. Chinese Journal of Polymer Science, 2022: 1-10. https://doi.org/10.1007/s10118-022-2742-0

5. Huang Z, Jin B, Wu H, et al. Mechanically robust dual-crosslinking elastomer enabled by a facile self-crosslinking approach[J]. Materials, 2022, 15(11): 3983. https://doi.org/10.3390/ma15113983

6. Zhang Y, Xu H, Wang H, et al. Atomic Oxygen Resistance Vitrimers with High Strength, Recyclability, and Thermal Stability[J]. ACS Applied Polymer Materials, 2022, 4(7): 5152-5160.   https://doi.org/10.1021/acsapm.2c00659

7. Hou Y, Peng Y, Li P, et al. Bioinspired Design of High Vibration-Damping Supramolecular Elastomers Based on Multiple Energy-Dissipation Mechanisms[J]. ACS Applied Materials & Interfaces, 2022, 14(30): 35097-35104.   https://doi.org/10.1021/acsami.2c07604

8. Wang Y, Ouyang H, Xie Y, et al. Mechanically robust, biocompatible, and durable PHEMA-based hydrogels enabled by the synergic effect of strong intermolecular interaction and suppressed phase separation[J]. Polymer, 2022, 254: 125083. https://doi.org/10.1016/j.polymer.2022.125083

9. Yuan Z Y, Cao Z X, Wu R, et al. Ultra-robust Metallosupramolecular Hydrogels with Unprecedented Self-recoverability using Asymmetrically Distributed Carboxyl-Fe3+ Coordination Interactions[J]. Chinese Journal of Polymer Science, 2022: 1-8. https://doi.org/10.1007/s10118-022-2818-x

10. Guo C, Cao Z, Peng Y, et al. Subchondral bone-inspired hydrogel scaffold for cartilage regeneration[J]. Colloids and Surfaces B: Biointerfaces, 2022, 218: 112721. https://doi.org/10.1016/j.colsurfb.2022.112721

11. Hou Y, Liu H, Peng Y, et al. A fast self-healing and mechanical-enhanced polyurethane via Cu-pyridine coordination[J]. Polymer, 2022, 257: 125266. https://doi.org/10.1016/j.polymer.2022.125266

12. Yuan Z, Cao Z, Ma C, et al. Ultra-robust, repairable and smart physical hydrogels enabled by nano-domain reconfiguration of network topology[J]. Chemical Engineering Journal, 2022, 450: 138085.   https://doi.org/10.1016/j.cej.2022.138085

13. Guo C, Wang Y, Liu H, et al. A refractory wound healing hydrogel with integrated functions of photothermal anti-infection, superoxide dismutase mimicking activity, and intelligent infection management[J]. Materials & Design, 2022: 111280.   https://doi.org/10.1016/j.matdes.2022.111280
14. Yuan Z, Cao Z, Wu R, et al. Mechanically robust and rapidly degradable hydrogels for temporary water plugging in oilfields[J]. Journal of Polymer Science. https://doi.org/10.1002/pol.20220495
15. Huang Y, Wu H, Li W, et al. Healable Poly (urethane-urea) Elastomer with Ultra-high Mechanical Strength Enabled by Tailoring Multiple Relaxation Dynamics of Hierarchical Hard Domains[J]. Journal of Materials Chemistry A, 2022.https://doi.org/10.1039/D2TA05644E
16. Xu H, Zhang Y, Wang H, et al. Unraveling the Heterogeneity of Epoxy-amine Networks by Introducing Dynamic Covalent Bonds[J]. Chinese Journal of Polymer Science, 2022: 1-7.https://doi.org/10.1007/s10118-022-2881-3
17. Song Z, Gu S, Tang T, et al. Povidone-iodine Enhanced Underwater Tape[J]. Journal of Materials Chemistry B, 2022. https://doi.org/10.1039/D2TB02115C
18. Xu H, Wang H, Zhang Y, et al. Vinylogous Urethane Based Epoxy Vitrimers with Closed-Loop and Multiple Recycling Routes[J]. Industrial & Engineering Chemistry Research, 2022.https://doi.org/10.1021/acs.iecr.2c03393
19. Hou Y, Xu H, Peng Y, et al. Recyclable and self-healable elastomers with high mechanical performance enabled by hydrogen-bonded rigid structure[J]. Polymer, 2022: 125574. https://doi.org/10.1016/j.polymer.2022.125574
20. Liu H, Li W, Wu H, et al. Effect of Counterions on the Physicomechanical Properties of Copper–Nitrogen-Coordinated Metallosupramolecular Elastomers[J]. ACS Applied Materials & Interfaces, 2022.https://doi.org/10.1021/acsami.2c18631

2021年：

1. Peng Y, Hou Y, Wu Q, et al. Thermal and mechanical activation of dynamically stable ionic interaction toward self-healing strengthening elastomers[J]. Materials Horizons, 2021, 8(9): 2553-2561. 

2. Shen Q, Liu H, Peng Y, et al. Visualization of the self-healing process by directly observing the evolution of fluorescence intensity[J]. Polymer Chemistry, 2021, 12(4): 494-500.

3. Gu S, Wang H, Zhang H, et al. Exploring AIE luminogens as stickers to construct self-healing ionomers and as probes to detect the microscopic healing dynamics[J]. Journal of Materials Chemistry A, 2021, 9(40): 22943-22951.

4. Zhu Y, Gao J L, Zhang L J, et al. An interfacial dynamic crosslinking approach toward catalyst-free and mechanically robust elastomeric vitrimer with a segregated structure[J]. Chinese Journal of Polymer Science, 2021, 39(2): 201-210.

5. Wang Y, Cao Z, Ma C, et al. Mechanically robust smart hydrogels enabled by an organic-inorganic hybridized crosslinker[J]. Polymer, 2021, 214: 123236.

6. Zhu Y, Wei L Y, Fu X, et al. Super strong and tough elastomers enabled by sacrificial segregated network[J]. Chinese Journal of Polymer Science, 2021, 39(3): 377-386.

7. Wang H, Liu H C, Zhang Y, et al. A triple crosslinking design toward epoxy vitrimers and carbon fiber composites of high performance and multi-shape memory[J]. Chinese Journal of Polymer Science, 2021, 39(6): 736-744.

8. Zhang L, Xiong H, Wu Q, et al. Constructing hydrophobic protection for ionic interactions toward water, acid, and base-resistant self-healing elastomers and electronic devices[J]. Science China Materials, 2021, 64(7): 1780-1790.

9. Wu R, Jiang Z, Cao Z, et al. Preparation of High-Performance Composite Hydrogel Reinforced by Hydrophilic Modified Waste Rubber Powder[J]. Molecules, 2021, 26(16): 4788.

10. Gu S, Liu J, Zheng J, et al. Robust Antiwater and Anti-oil-fouling Double-Sided Tape Enabled by SiO2 Reinforcement and a Liquefied Surface[J]. ACS Applied Materials & Interfaces, 2021, 13(36): 43404-43413.

11. Wang Y, Ouyang H, Zhao L, et al. A novel network construction method based on degenerative chain transfer effect to toughen hydrogels[J]. Polymer, 2021, 231: 124147.

12. Zhang J, Huang C, Zhu Y, et al. Toughening polyisoprene rubber with sacrificial bonds: The interplay between molecular mobility, energy dissipation and strain-induced crystallization[J]. Polymer, 2021, 231: 124114.

13. Wu H T, Jin B Q, Wang H, et al. A robust self-healing polyurethane elastomer enabled by tuning the molecular mobility and phase morphology through disulfide bonds[J]. Chinese Journal of Polymer Science, 2021, 39(10): 1299-1309.

14. Cao Z, Yuan Z, Wu R, et al. Tough and Resilient Hydrogels Enabled by a Multifunctional Initiating and Cross-Linking Agent[J]. Gels, 2021, 7(4): 177.

15. Zhang L, Zhang J, Liu H, et al. Reinforcing self-healing and Re-processable ionomers with carbon black: An investigation on the network structure and molecular mobility[J]. Composites Science and Technology, 2021, 216: 109035.

2020年：

（1）Hao Wang, Hanchao Liu, Zhenxing Cao, Weihang Li, Xin Huang, Yong Zhu, Fangwei Ling, Hu Xu, Qi Wu, Yan Peng, Bin Yang, Rui Zhang, Olaf Kessler, Guangsu Huang, Jinrong Wu. Room-temperature autonomous self-healing glassy polymers with hyperbranched structure. Proceedings of the National Academy of Sciences 2020, 117, 21. 11299-11305.

（2）Haitao Wei, Yi Yang, Xin Huang, Yong Zhu, Hao Wang, Guangsu Huang, Jinrong Wu. Transparent, robust, water-resistant and high-barrier self-healing elastomers reinforced with dynamic supramolecular nanosheets with switchable interfacial connections. Journal of Materials Chemistry A 2020, 8, 9013-9020.

（3）Peng Yan, Hou Yujia, Wu Qi, Zhu Yong, Huang Guangsu, Ran Qichao, Wu Jinrong. Recyclable, self-healing, absorption-dominated and highly effective electromagnetic shielding elastomers based on bridged micro capacitance structures. Carbon 2020, 166, 56-63.

（4）Ji-Yu Yang, Yu Xia, Jin Zhao, Long-Fei Yi, Yong-Jiao Song, Hong Wu, Shao-Yun Guo, Li-Juan Zhao, Jin-Rong Wu. Flame-retardant and Self-healing Biomass Aerogels Based on Electrostatic Assembly. Chinese Journal of Polymer Science 2020. 1-11.

（5）Changshu Ma,Yi Wang,Zuming Jiang,Zhenxing Cao,Huiting Yu,Guangsu Huang, Jinrong Wu.Wide-range linear viscoelastic hydrogels with high mechanical properties and their applications in quantifiable stress-strain sensors. Chemical Engineering Journal 2020, 399.

（6）Hao Zhang, Jingheng Shu, Jinrong Wu, Zhan Liu. Soft Defect-Tolerant Material Inspired by American Lobsters. ACS applied materials & interfaces 2020, 12, 23, 26509-26514.

（7）Yong Zhu, Junqi Zhang, Qi Wu, Mokun Chen, Guangsu Huang, Jing Zheng, and Jinrong Wu. Three-Dimensional Programmable, Reconfigurable, and Recyclable Biomass Soft Actuators Enabled by Designing an Inverse Opal-Mimetic Structure with Exchangeable Interfacial Crosslinks. ACS applied materials & interfaces 2020, 12, 13, 15757-15764.

（8）Cheng Huang, Junqi Zhang, Xufu Cai, Guangsu Huang, Jinrong Wu. The effects of proteins and phospholipids on the network structure of natural rubber: a rheological study in bulk and in solution. Journal of Polymer Research 2020, 27, 158.

（9）Qi Wu, Hui Xiong, Yong Zhu, Xiancheng Ren, Lin-Lin Chu, Ye-Feng Yao, Guangsu Huang, Jinrong Wu. Self-Healing Amorphous Polymers with Room-Temperature Phosphorescence Enabled by Boron-Based Dative Bonds. ACS Applied Polymer Materials 2020, 2, 699-705

（11）Lingmin Kong,Yong Zhu, Guangsu Huang, Jinrong Wu. "Carbon nanodots as dual role of crosslinking and reinforcing chloroprene rubber." Composites Communications 22 (2020): 100441.

（12）Hui Xiong, Linjun Zhang,Qi Wu, Hao Zhang, Yan Peng,Lijuan Zhao, Guangsu Huang and Jinrong Wu. A strain-adaptive, self-healing, breathable and perceptive bottle-brush material inspired by skin. Journal of Materials Chemistry A, 2020, 8.46: 24645-24654.

（13）Haitao Wu,Biqiang Jin,Hao Wang,Wenqiang Wu,Zhenxing Cao ,Jinrong Wu,Guangsu Huang.A degradable and self-healable vitrimer based on non-isocyanate polyurethane. Frontiers in chemistry, 2020, 8.

（14）Yong Zhu, Laiyun Wei, Xuan Fu, Junqi Zhang, Lingmin Kong, Guangsu Huang,Jinrong Wu.Super Strong and Tough Elastomers Enabled by Sacrificial Segregated Network. Chinese Journal of Polymer Science, 2020, 1-10.

（15）Yong Zhu, Jing-Li Gao, Lin-Jun Zhang, Yan Peng, Hao Wang, Fang-Wei Ling, Guang-Su Huang,Jin-Rong Wu.An Interfacial Dynamic Crosslinking Approach toward Catalyst-free and Mechanically Robust Elastomeric Vitrimer with a Segregated Structure. Chinese Journal of Polymer Science, 2020, 1-10.

（16）Yan Peng,Yu-jia Hou, Qiao-qiao Shen , Hui Wang, Gang Li, Guang-su Huang, Jin-rong Wu. Synthesis and Performance of a Double Network Self-healing Elastomer Based on Hydrogen Bonds and Diels-Alder Crosslinks. Acta Polymerica Sinica, 2020, 51.2: 158-165.

（17）Jiayi Liu,Shixiang Wang, Qiaoqiao Shen,Lingmin Kong,Guangsu Huang,Jinrong Wu.Tough Underwater Super-tape Composed of Semi-interpenetrating Polymer Networks with a Water-Repelling Liquid Surface. ACS Applied Materials & Interfaces, 2020.

（18）Linjun Zhang,Hao Wang,Yong Zhu,Hui Xiong,Qi Wu,Shiyu Gu,Xikui Liu,Guangsu Huang,Jinrong Wu.Electron-Donating Effect Enabled Simultaneous Improvement on the Mechanical and Self-Healing Properties of Bromobutyl Rubber Ionomers. ACS Applied Materials & Interfaces, 2020, 12.47: 53239-53246.

（19）Yan Peng,Yujia Hou,Qi Wu,Qichao Ran,Guangsu Huang,Jinrong Wu.Thermal and Mechanical Activation of Dynamically Stable Ionic Interaction toward Self-Healing Strengthening Elastomers. 2020.

（20）Hao Wang, Han-Chao Liu, Yao Zhang, Hu Xu, Bi-Qiang Jin, Zhen-Xing Cao, Hai-Tao Wu, Guang-Su Huang,Jin-Rong Wu.A triple crosslinking design toward epoxy vitrimers and carbon fiber composites of high performance and multi-shape memory. Chinese Journal of Polymer Science, 2020, 1-9.

（21）Qiaoqiao Shen , Hui Liu , Yan Peng , Jing Zheng and Jinrong Wu . Visualization of the self-healing process by directly observing the evolution of fluorescence intensity. Polymer Chemistry, 2020.

2019年：

（1）Fang-Wei Ling, Ming-Chao Luo, Mo-Kun Chen, Jian Zeng, Shi-Qi Li, Hong-Bo Yin, Jin-Rong Wu, Yun-Xiang Xu, Guangsu Huang. Terminally and randomly functionalized polyisoprene lead to distinct aggregation behaviors of polar groups. 2019, Polymer 178, 121629.

（2）Jiyu Yang, Longfei Yi, Xiao Fang, Yongjiao Song, Lijuan Zhao, Jinrong Wu, Hong Wu. Self-healing and recyclable biomass aerogel formed by electrostatic interaction. 2019, Chemical Engineering Journal 371, 213-221.

（3）Yong Zhu, Qiaoqiao Shen, Laiyun Wei, Xuan Fu, Cheng Huang, Yiqiao Zhu, Lijuan Zhao, Guangsu Huang, Jinrong Wu. Ultra-tough, strong and defect-tolerant elastomers with self-healing and intelligent-responsive abilities. 2019, ACS applied materials & interfaces, 11(32), 29373-29381.

（4）Hanchao Liu, Hao Zhang, Hao Wang, Xin Huang, Guangsu Huang, Jinrong Wu. Weldable, malleable and programmable epoxy vitrimers with high mechanical properties and water insensitivity. 2019, Chemical Engineering Journal 368, 61-70.

（5）Shiqi Li, Maozhu Tang, Cheng Huang, Rong Zhang, Jinrong Wu, Fangwei Ling, Yun-Xiang Xu, Guangsu Huang. Branching function of terminal phosphate groups of polyisoprene chain. 2019, Polymer 174, 18-24.

（6）Qi Wu, Hui Xiong, Yan Peng, Yi Yang, Jian Kang, Guangsu Huang, Xiancheng Ren, Jinrong Wu. Highly Stretchable and Self-Healing “Solid–Liquid” Elastomer with Strain-Rate Sensing Capability. 2019, ACS applied materials & interfaces

（7）Xin Huang, Han-chao Liu, Zheng Fan, Hao Wang, Guang-su Huang, Jin-rong Wu, Hyperbranched Polymer Toughened and Reinforced Self-healing Epoxy Vitrimer. 2019, ACTA POLYMERICA SINICA 50 (5), 535-542.

（7）Jinrong Wu, Zhao Qin, Liangliang Qu, Hao Zhang, Fei Deng, Ming Guo. Natural hydrogel in American lobster: A soft armor with high toughness and strength. 2019, Acta biomaterialia 88, 102-110.

（8）Yi Wang, Zhenxing Cao, Jinrong Wu, Changshu Ma, Cuibo Qiu, Yachao Zhao, Fei Shao, Huanan Wang, Jing Zheng, Guangsu Huang. Mechanically robust, ultrastretchable and thermal conducting composite hydrogel and its biomedical applications. 2019, Chemical Engineering Journal 360, 231-242.

（9）Xuan Fu, Cheng Huang, Yong Zhu, Guangsu Huang, Jinrong Wu. Characterizing the naturally occurring sacrificial bond within natural rubber. 2019, Polymer 161, 41-48.

（10）Yan Peng, Yujia Hou, Qiaoqiao Shen, Hui Wang, Gang Li, Guangsu Huang, Jinrong Wu. The Synthesis and Performance of Double Network Self-healing Elastomer Based on Hydrogen Bond and Diels-Alder Crosslinks. 2019, Acta Polymerica Sinica

（11）Zhenxing Cao, Yi Wang, Hao Wang, Changshu Ma, Heng Li, Jing Zheng, Jinrong Wu, Guangsu Huang. Tough, ultrastretchable and tear-resistant hydrogels enabled by linear macro-crosslinker. 2019, Polymer Chemistry

（12）Han Liu, Guang-Su Huang, Lai-Yun Wei, Jian Zeng, Xuan Fu, Cheng Huang, Jin-Rong Wu. Inhomogeneous Natural Network Promoting Strain-induced Crystallization: A Mesoscale Model of Natural Rubber. 2019, Chinese Journal of Polymer Science, 1-10

（13）Fangwei Ling , Zhenwei Liu , Mokun Chen , Hao Wang , Yong Zhu , Changshu Ma , Jinrong Wu, Guangsu Huang. Compatibility driven self-strengthening during the radical-responsive remolding process of poly-isoprene vitrimers. Journal of Materials Chemistry A 2019, 7, 25324-25332

2018年：

（1）Yan Peng, Yi Yang, Qi Wu, Shixiang Wang, Guangsu Huang, Jinrong Wu. Strong and tough self-healing elastomers enabled by dual reversible networks formed by ionic interactions and dynamic covalent bonds. 2018, Polymer 157, 172-179.

（2）Lijuan Zhao, Yi He, Huan Zhang, Longfei Yi, Jinrong Wu. Enhancing the thermoelectric property of Bi2Te3 through a facile design of interfacial phonon scattering. 2018, Journal of Alloys and Compounds 768, 659-666.

（3）Cheng Huang, Guangsu Huang, Shiqi Li, Mingchao Luo, Han Liu, Xuan Fu, Wei Qu, Zhengtian Xie, Jinrong Wu. Research on architecture and composition of natural network in natural rubber. 2018, Polymer 154, 90-100.

（4）Furong Sun, Jiyu Yang, Huan Zhang, Longfei Yi, Kaijun Luo, Lijuan Zhao, Jinrong Wu. Multi-functional composite aerogels enabled by chemical integration of graphene oxide and waterborne polyurethane via a facile and green method. 2018, Composites Science and Technology 165, 175-182.

（5）Zheng-Tian Xie, Ming-Chao Luo, Cheng Huang, Lai-Yun Wei, Yu-Hang Liu, Xuan Fu, Guangsu Huang, Jinrong Wu. Effects of graphene oxide on the strain-induced crystallization and mechanical properties of natural rubber crosslinked by different vulcanization systems. 2018, Polymer 151, 279-286

（6）Yan Peng, Lijuan Zhao, Changyue Yang, Yi Yang, Cheng Song, Qi Wu, Guangsu Huang, Jinrong Wu. Super tough and strong self-healing elastomers based on polyampholytes. 2018, Journal of Materials Chemistry A 6 (39), 19066-19074

（7）Laiyun Wei, Xuan Fu, Mingchao Luo, Zhengtian Xie, Cheng Huang, Junjun Zhou, Yong Zhu, Guangsu Huang, Jinrong Wu. Synergistic effect of CB and GO/CNT hybrid fillers on the mechanical properties and fatigue behavior of NR composites. 2018, RSC advances 8 (19), 10573-10581

（8）Yanhong Wei, Juanjuan Li, Furong Sun, Jinrong Wu, Lijuan Zhao. Leakage-proof phase change composites supported by biomass carbon aerogels from succulents. 2018, Green chemistry 20 (8), 1858-1865

2017年及以前：

（1） Jinrong Wu, Li-Heng Cai, David A. Weitz. Tough Self-Healing Elastomers by Molecular Enforced Integration of Covalent and Reversible Networks. 2017, Advanced Materials

（2） Zheng-Tian Xie, Xuan Fu, Lai-Yun Wei, Ming-Chao Luo, Yu-Hang Liu, Fang-Wei Ling, Cheng Huang, Guangsu Huang, Jinrong Wu. New evidence disclosed for the engineered strong interfacial interaction of graphene/rubber nanocomposites. 2017, Polymer 118, 30-39

（3） Jinrong Wu, Wei Qu, Guangsu Huang, Siyuan Wang, Cheng Huang, Han Liu. Super-Resolution Fluorescence Imaging of Spatial Organization of Proteins and Lipids in Natural Rubber. 2017, Biomacromolecules, 18(6), 1705-1712.

（4） Wang Xing, Hengyi Li, Guangsu Huang, Li-Heng Cai, Jinrong Wu. Graphene oxide induced crosslinking and reinforcement of elastomers. 2017, Composites Science and Technology 144, 223-229

（5） Xing Huang, Max Eggersdorfer, Jinrong Wu, Chun-Xia Zhao, Zhongbin Xu, Dong Chen, David A. Weitz. Collective generation of milliemulsions by step-emulsification. 2017, RSC Advances 7, 14932–14938

（6） Jinrong Wu, Lingping Zeng, Xiaopeng Huang, Lijuan Zhao, Guangsu Huang. Mechanically robust and shape-memory hybrid aerogels for super-insulating applications. 2017, Journal of Materials Chemistry A 5 (29), 15048-15055

（7） Ming-Chao Luo, Jian Zeng, Xuan Fu, Guangsu Huang, Jinrong Wu. Toughening diene elastomers by strong hydrogen bond interactions. 2016, Polymer 106, 21-28

（8） Ming-Chao Luo, Jian Zeng, Zheng-Tian Xie, Lai-Yun Wei, Guangsu Huang, Jinrong Wu. Impact of hydrogen bonds dynamics on mechanical behavior of supramolecular elastomer. 2016. Polymer 105, 221-226

（9） Yechao Su, Hong Zhao, Jinrong Wu, Jianhong Xu. One-step fabrication of silica colloidosomes with in situ drug encapsulation. 2016, RSC Advances 6, 112292–112299

（10） Hengyi Li, Lei Yang, Gengsheng Weng, Wang Xing, Jinrong Wu, Guangsu Huang. Toughening rubbers with a hybrid filler network of graphene and carbon nanotubes. 2015, Journal of Materials Chemistry A 3, 22385-22392

（11） Lijuan Zhao, Xijing Sun, Zhouyue Lei, Jinghong Zhao, Jinrong Wu, Quan Li, Aiping Zhang. Thermoelectric behavior of aerogels based on graphene and multi-walled carbon nanotube nanocomposites. 2015, Composites Part B: Engineering 83, 317-322

（12） Siduo Wu, Guangsu Huang, Jinrong Wu, Hui Li. Interfacial crystallization of low-crystallinity elastomer incorporated by multi-walled carbon nanotubes: Mechanical reinforcement, structural evolution and enhanced thermal stability. 2015, Journal of Applied Polymer Science 132 (31)

（13） Han Liu, Guangsu Huang, Jian Zeng, Lili Xu, Xuan Fu, Siduo Wu, Jing Zheng, Jinrong Wu. Observing nucleation transition in stretched natural rubber through self-seeding. 2015 The Journal of Physical Chemistry B 119 (35), 11887-11892

（14） Siduo Wu, Guangsu Huang, Jinrong Wu, Feng Tian, Hui Li. Structural evolution of OBC/carbon nanotube bundle nanocomposites under uniaxial deformation. 2015, RSC advances 5, 32909

（15） Maozhu Tang, Wang Xing, Jinrong Wu, Guangsu Huang, Kewei Xiang, Lili Guo, Guangxuan Li. Graphene as a prominent antioxidant for diolefin elastomers. 2015, Journal of Materials Chemistry A 3 (11), 5942-5948 .

（16） Zhouyue Lei, Yugang Yan, Jing Feng, Jinrong Wu, Guangsu Huang, Xiaodong Li, Wang Xing, Lijuan Zhao, Enhanced power factor within graphene hybridized carbon aerogels. 2015, RSC Advances 5 (33), 25650-25656

（17） Geng-Sheng Weng, Jin-Rong Wu, Yu-Ci Xu, Jin-Biao Bao, Guangsu Huang, Zhong-Ren Chen. Study on the stretch induced phase transition of α trans-1, 4-polyisoprene by in-situ SAXS and WAXS measurements. 2014, Journal of Polymer Research 21 (11), 576

（18） Wang Xing, Jinrong Wu, Guangsu Huang, Hui Li, Maozhu Tang, Xuan Fu. Enhanced mechanical properties of graphene/natural rubber nanocomposites at low content. 2014, Polymer International 63 (9), 1674-1681

（19） Kewei Xiang, Siduo Wu, Guangsu Huang, Jing Zheng, Jingyun Huang, Guangxian Li. Relaxation behavior and time-temperature superposition (TTS) profiles of thermally aged styrene-butadiene rubber (SBR). 2014, Macromolecular Research 22 (8), 820-825

（20） Wang Xing, Maozhu Tang, Jinrong Wu, Guangsu Huang, Hui Li, Zhouyue Lei, Xuan Fu, Hengyi Li. Multifunctional properties of graphene/rubber nanocomposites fabricated by a modified latex compounding method. 2014. Composites science and technology 99, 67-74

（21） Yijing Nie, Liangliang Qu, Guangsu Huang, Xiaoan Wang, Gengsheng Weng, Jinrong Wu. Homogenization of natural rubber network induced by nanoclay. 2014, Journal of Applied Polymer Science 131 (11)

（22） Hui Li, Siduo Wu, Jinrong Wu, Guangsu Huang. Enhanced electrical conductivity and mechanical property of SBS/graphene nanocomposite. 2014, Journal of Polymer Research 21 (5), 456

（23） Mao-zhu Tang, Wang Xing, Jin-rong Wu, Guang-su Huang, Hui Li, Si-duo Wu. Vulcanization kinetics of graphene/styrene butadiene rubber nanocomposites. 2014, Chinese Journal of Polymer Science 32 (5), 658-666

（24） Zhouyue Lei, Wang Xing, Jinrong Wu, Guangsu Huang, Xiaoan Wang, Lijuan Zhao. The proper glass transition temperature of amorphous polymers on dynamic mechanical spectra. 2014, Journal of Thermal Analysis and Calorimetry 116 (1), 447-453

（25） Jinrong Wu, Hui Li, Siduo Wu, Guangsu Huang, Wang Xing, Maozhu Tang, Qiang Fu. Influence of magnetic nanoparticle size on the particle dispersion and phase separation in an ABA triblock copolymer. 2014, The Journal of Physical Chemistry B 118 (8), 2186-2193

（26） Siduo Wu, Hui Li, Guangsu Huang, Jinrong Wu. Nucleating effect of multi-walled carbon nanotubes and graphene on the crystallization kinetics and melting behavior of olefin block copolymers. 2014, RSC Advances 4 (36), 19024-19033

（27） Hui Li, Siduo Wu, Jinrong Wu, Guangsu Huang. A facile approach to the fabrication of graphene-based nanocomposites by latex mixing and in situ reduction. 2013, Colloid and Polymer Science 291 (10), 2279-2287

（28） Jinrong Wu, Wang Xing, Guangsu Huang, Hui Li, Maozhu Tang, Siduo Wu, Yufeng Liu. Vulcanization kinetics of graphene/natural rubber nanocomposites. 2013, Polymer 54 (13), 3314-3323

（29） Xiaoan Wang, Kewei Xiang, Yijing Nie, Guangsu Huang, Jinrong Wu, Zhiqing Su. Intermediate state and weak intermolecular interactions of α-trans-1,4-Polyisoprene during the gradual cooling crystallization process investigated by In situ FTIR and two-dimensional infrared correlation spectroscopy. 2013, Macromolecular Research 21 (5), 493-501

（30） Jinrong Wu, Guangsu Huang, Hui Li, Siduo Wu, Yufeng Liu, Jing Zheng. Enhanced mechanical and gas barrier properties of rubber nanocomposites with surface functionalized graphene oxide at low content. Polymer 54 (7), 1930-1937

（31） Ben Xu, Jinrong Wu, Gregory B McKenna. Mechanical and swelling behaviors of end-linked PDMS rubber and randomly cross-linked polyisoprene. 2013, Macromolecules 46 (5), 2015-2022

（32） Xiaoan Wang, Kewei Xiang, Dian Zhang, Jinrong Wu, Guangsu Huang. Influence of pretreatment factors on two-dimensional correlation dynamic mechanical spectroscopy features. 2013, Physics Procedia 48, 132-139

（33） Jinrong Wu, Guangsu Huang, Xiaoan Wang, Xiaojun He, Ben Xu. Changes in the viscoelastic mechanisms of polyisobutylene by plasticization. 2012, Macromolecules 45 (19), 8051-8057

（34） Xiaoan Wang, Yijing Nie, Guangsu Huang, Jinrong Wu, Kewei Xiang. Dynamic crossover of the sub-Rouse modes in the glass–rubber transition region in poly (n-alkyl methacrylates) with different side chain lengths. 2012, Chemical Physics Letters 538, 82-85

（35） Xiaoan Wang, Xiaojun He, Guangsu Huang, Jinrong Wu. Correlations between alkyl side chain length and dynamic mechanical properties of poly (n-alkyl acrylates) and poly (n-alkyl methacrylates). 2012, Polymer 53 (2), 665-672

（36） Yijing Nie, Liangliang Qu, Guangsu Huang, Bingyin Wang, Gengsheng Weng, Jinrong Wu. Improved resistance to crack growth of natural rubber by the inclusion of nanoclay. 2011, Polymers for Advanced Technologies 23 (1), 85-91

（37） Yijing Nie, Guangsu Huang, Liangliang Qu, Peng Zhang, Gengsheng Weng, Jinrong Wu. Structural evolution during uniaxial deformation of natural rubber reinforced with nano-alumina. 2011, Polymers for Advanced Technologies 22 (12), 2001-2008

（38） Jinrong Wu, Guangsu Huang, Xiaoan Wang, Xiaojun He, Hangxin Lei. Molecular dynamics in chlorinated butyl rubber containing organophilic montmorillonite nanoparticles. 2011, Journal of Polymer Research 18 (6), 2213-2220

（39） Xiaoan Wang, GS Huang, JR Wu, YJ Nie, XJ He, KW Xiang. Molecular motions in glass-rubber transition region in polyisobutylene investigated by two-dimensional correlation dielectric relaxation spectroscopy. 2011, Applied Physics Letters 99 (12), 121902

（40） Liangliang Qu, Yijing Nie, Guangsu Huang, Gengsheng Weng, Jinrong Wu. Dynamic fatigue behavior of natural rubber reinforced with nanoclay and carbon black. 2011, Journal of Macromolecular Science, Part B 50 (8), 1646-1657

（41） Peng Zhang, Guangsu Huang, Liangliang Qu, Yijing Nie, Gengsheng Weng, Jinrong Wu. Strain-induced crystallization behavior of polychloroprene rubber. 2011, Journal of Applied Polymer Science 121 (1), 37-42

（42） Yijing Nie, Guangsu Huang, Liangliang Qu, Xiaoan Wang, Gengsheng Weng, Jinrong Wu. New insights into thermodynamic description of strain-induced crystallization of peroxide cross-linked natural rubber filled with clay by tube model. 2011, Polymer 52 (14), 3234-3242

（43） Liangliang Qu, Guangsu Huang, Yijing Nie, Jinrong Wu, Gengsheng Weng, Peng Zhang. Strain-induced crystallization behavior of natural rubber and trans-1, 4-polyisoprene crosslinked blends. 2011, Journal of applied polymer science 120 (3), 1346-1354

（44） Xiaoan Wang, Guangsu Huang, Jinrong Wu, Yijing Nie, Xiaojun He. Using two-dimensional correlation dynamic mechanical spectroscopy to detect different modes of molecular motions in the glass− rubber transition region in polyisobutylene. 2011, The Journal of Physical Chemistry B 115 (8), 1775-1779

（45） Jinrong Wu, Guangsu Huang, Xiaoan Wang, Xiaojun He, Jing Zheng. Detecting different modes of molecular motion in polyisobutylene and chlorinated butyl rubber by using dielectric probes. 2011, Soft Matter 7 (19), 9224-9230

（46） Xiaojun He, Jinrong Wu, Guangsu Huang, Xiaoan Wang. Effect of alkyl side chain length on relaxation behaviors in poly (n-alkyl acrylates) and poly (n-alkyl methacrylates). 2010, Journal of Macromolecular Science, Part B: Physics 50 (1), 188-200

（47） Jinrong Wu, Guangsu Huang, Xiaoan Wang, Xiaojun He, Hangxin Lei. Confinement effect of polystyrene on the relaxation behavior of polyisobutylene. 2010, Journal of Polymer Science Part B: Polymer Physics 48 (20), 2165-2172

（48） Liangliang Qu, Guangsu Huang, Peng Zhang, Yijing Nie, Gengsheng Weng, Jinrong Wu. Synergistic reinforcement of nanoclay and carbon black in natural rubber. 2010, Polymer International 59 (10), 1397-1402

（49） Yijing Nie, Bingyin Wang, Guangsu Huang, Liangliang Qu, Peng Zhang, Gengsheng Weng, Jinrong Wu. Relationship between the material properties and fatigue crack‐growth characteristics of natural rubber filled with different carbon blacks. 2010, Journal of applied polymer science 117 (6), 3441-3447

（50） Gengsheng Weng, Guangsu Huang, Liangliang Qu, Yijing Nie, Jinrong Wu. Large-scale orientation in a vulcanized stretched natural rubber network: proved by in situ synchrotron X-ray diffraction characterization. 2010, The Journal of Physical Chemistry B 114 (21), 7179-7188

（51） Yijing Nie, Guangsu Huang, Zhiyuan Liu, Liangliang Qu, Peng Zhang, Gengsheng Weng, Jinrong Wu. Improved mechanical properties and special reinforcement mechanism of natural rubber reinforced by in situ polymerization of zinc dimethacrylate. 2010, Journal of applied polymer science 116 (2), 920-928

（52） Yijing Nie, Guangsu Huang, Liangliang Qu, Peng Zhang, Gengsheng Weng, Jinrong Wu. Cure kinetics and morphology of natural rubber reinforced by the in situ polymerization of zinc dimethacrylate. Journal of applied polymer science 115 (1), 99-106

（53） Jinrong Wu, Guangsu Huang, Liangliang Qu, Jing Zheng. Correlations between dynamic fragility and dynamic mechanical properties of several amorphous polymers. 2009, Journal of Non-Crystalline Solids 355 (34-36), 1755-1759

（54） Gregory B McKenna, Qian Qin, Ben Xu, Jinrong Wu. POLY 96-Anomalous melting of organic crystals in polymer matrices. 2009, ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 238

（55） Yu Chan Zhu, Bo Wang, Wei Zhou, Jin Rong Wu, Guang Su Huang. Influence of free volume on damping properties for CIIR and CIIR/PEA investigated by positron. 2009, Materials Science Forum 607, 91-93

（56） Jinrong Wu, Gregory B McKenna. Anomalous melting behavior of cyclohexane and cyclooctane in poly (dimethyl siloxane) precursors and model networks. 2008, Journal of Polymer Science Part B: Polymer Physics 46 (24), 2779-2791

（57） Damping characteristics of chlorobutyl rubber/poly (ethyl acrylate)/piezoelectric ceramic/carbon black composites. Zhiyuan Liu, Yanyan Wang, Guangsu Huang, Jinrong Wu. 2008, Journal of applied polymer science 108 (6), 3670-3676

（58） Jinrong Wu, Guangsu Huang, Qiying Pan, Jing Zheng, Yuchan Zhu, Bo Wang. An investigation on the molecular mobility through the glass transition of chlorinated butyl rubber. 2007, Polymer 48 (26), 7653-7659

（59） Yuchan Zhu, Wei Zhou, Junjun Wang, Bo Wang, Jinrong Wu, Guangsu Huang. Study on damping mechanism based on the free volume for CIIR by PALS. 2007, The Journal of Physical Chemistry B 111 (39), 11388-11392

（60） Liangliang Qu, Guangsu Huang, Jinrong Wu, Zhenhua Tang. Damping mechanism of chlorobutyl rubber and phenolic resin vulcanized blends. 2007, Journal of materials science 42 (17), 7256-7262

（61） Jinrong Wu, Qiying Pan, Guangsu Huang. Study on the morphology, rheology and surface of dynamically vulcanized chlorinated butyl rubber/polyethylacrylate extrudates: effect of extrusion temperature and times. 2007, Journal of materials science 42 (12), 4494-4501

（62） Jinrong Wu, Guangsu Huang, Qiying Pan, Liangliang Qu, Yuchan Zhu, Bo Wang. Study on liquid-liquid transition of chlorinated butyl rubber by positron annihilation lifetime spectroscopy. 2006, Applied physics letters 89 (12), 121904

（63） Yan-yan Wang, Xi-rong Chen, Guang-su Huang, Qi-ying PAN, Jin-rong WU. Research on the Damping Performance of CIIR/ACM/PZT/CB Composites. 2005, POLYMER MATERIALS SCIENCE AND ENGINEERING 21 (3), 246