国科学院大学温州研究院陈强

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陈强，1981年4月出生，博士，教授，博士生导师，中国化学会会员，2021年1月入职国科大温州研究院任PI，主要从事高分子凝胶及其功能化研究，致力于功能凝胶材料的设计策略与应用，以满足凝胶在生物医用、医疗器械涂层和柔性器件中的应用需求。主持完成国家自然科学基金2项、河南省重大项目1项，以第一作者或通讯作者发表SCI论文30多篇，引用>2800次, H因子28.


研究方向
长期从事高分子水凝胶的设计及应用研究工作，对凝胶材料的结构与性能的关系有深入理解，熟悉凝胶的表征和结构分析，特别是在双网络水凝胶的制备、性质与应用方面都有着较为深入的研究和长时间的积累，发展了“一锅煮”高效杂化双网络凝胶的新方法、提出了杂化双网络凝胶的强韧机理和网络破坏机理、设计了全物理交联双网络水凝胶，并将凝胶材料用于柔性应变传感器和柔性储能。中国化学会会员，是Adv Mater，Adv Funct Mater，Mater Horizon, Chem Mater, Chem Sci, Macromolecules, ACS Appl Mater Interf，Chem Comm, J Mater Chem B, Nanoscale Horizon等国际期刊审稿人;
研究方向和兴趣包括：
（1） 生物医用水凝胶及其应用
可控黏附水凝胶及其在难愈合创面的修复；
水下黏附水凝胶及其快速止血；
凝胶贴膏及其可控药物释放；
抗黏附凝胶及其防粘连应用；


（2） 医疗器械表面功能性凝胶涂层
医疗器械材料表面强韧黏附水凝胶涂层新策略开发；
抗凝血、抗菌、抗黏附、低摩擦和耐摩擦等多功能凝胶涂层的设计；


（3） 柔性可穿戴器件和柔性储能用凝胶材料及其智能医疗
离子液体凝胶及其在智能可穿戴器件的应用；
离子和电子导电凝胶及其在电子皮肤、人机界面、纳米摩擦发电机和储能等领域应用；
新型弹性体及其在智能可穿戴器件的应用；


论文

• Chen Q, Zhu L, Zhao C, Wang Q M, Zheng J*. A robust, one-pot synthesis of highly   mechanical and recoverable double-network hydrogels using thermoreversible sol-gel polysaccharide. Advanced Materials, 2013, 25, 4171-4176. （ESI高被引论文, Times Cited >370）
• H. Chen, F. Yang, Q. Chen*, and J. Zheng*, A Novel Design of Multi-Mechanoresponsive and Mechanically Strong Hydrogels，Advanced Materials, 2017, 29, 1606900. （封面文章）
• Yukun Wang, Feng Chen, Zhuoxin Liu, Zijie Tang, Qi Yang, Yan Zhao, Shanyi Du, Qiang Chen*, Chunyi Zhi*, A Highly Elastic and Reversibly Stretchable All-Polymer Supercapacitor, Angewandte Chemie International Edition, 2019, 131，15854-15858. （ESI高被引论文）
• Chen Q*, Zhu L, Chen Hong, Yan H L, Huang L N, Yang J, Zheng J*. A novel design strategy for fully physically-linked double network hydrogels with tough, fatigue resistant, and self-healing properties, Advanced Functional Materials, 2015, 25, 1598-1607. （ESI高被引论文, Times Cited>315）
• Ziqing Tang, Qiang Chen*,Feng Chen, Lin Zhu, Shaoping Lu, Baiping Ren, Yanxian Zhang, Jia Yang, Jie Zheng*, General Principle to Fabricate Natural Globular Protein-Based Double-Network Hydrogels with Integrated Highly Mechanical Properties and Surface Adhesion on Solid Surfaces, Chemistry of Materials, 2019, 31, 179-189. （ESI高被引论文）
• Feng Chen, Qiang Chen*, Lin Zhu, Ziqing Tang, Qingfeng Li, Gang Qin, Jia Yang, Yanxian Zhang, Baiping Ren, and Jie Zheng*, General strategy to fabricate strong and tough low-molecular-weight gelator-based supramolecular hydrogels with double network structure, Chemistry of Materials, 2018, 30 (5), 1743-1754.
• Q. Chen*, X. Yan, L. Zhu, H. Chen, B. Jiang, D. Wei, L. Huang, J. Yang, B. Liu, and J. Zheng*, Improvement of mechanical strength and fatigue resistance of double network hydrogels by ionic coordination interactions, Chemistry of Materials, 2016, 28, 5710-5720.
• Jia Yang#, Xianqiang Yu#, Xiangbin Sun , Qiong Kang, Lin Zhu, Gang Qin, Aiguo Zhou, Gengzhi Sun* and Qiang Chen*, Polyaniline-Decorated Supramolecular Hydrogel with Tough, Fatigue-Resistant and Self-healable Performances for All-In-One Flexible Supercapacitor, ACS Applied Materials & Interfaces, 2020, 12(8), 9736-9745
• Dandan Wei, Jia Yang*, Lin Zhu, Feng Chen, Ziqing Tang, Gang Qin, Qiang Chen*, Semi-Crystalline Hydrophobically Associated Hydrogels with Integrated High Performances, ACS Applied Materials & Interfaces, 2018, 10 (3), 2946–2956.
• Xiaoyi Hu; Lidan Fan; Gang Qin*; Zhongshuo Shen; Juan Chen; Mengxiao Wang; Jia Yang; Qiang Chen*, Flexible and low temperature resistant double network alkaline gel polymer electrolyte with dual-role KOH for supercapacitor, Journal of Power Sources, 2019, 44, 201-209
• Mengxiao Wang, Lidan Fan, Gang Qin*, Xiaoyi Hu, Yijie Wang, Changying Wang, Jia Yang, Qiang Chen*, Flexible and low temperature resistant semi-IPN network gel polymer electrolyte membrane and its application in supercapacitor, Journal of Membrane Science, 2020, 597, 117740
• Chenyang Yu, Hai Xu, Xi Zhao, Yue Sun, Zengyu Hui, Zhuzhu Du, Gengzhi Sun*, Chunyang Miao*, Jinyuan Zhou, Qiang Chen*, Wei Huang, Scalable Preparation of High Performance Fibrous Electrodes with Bio-Inspired Compact Core-Fluffy Sheath Structure for Wearable Supercapacitors, Carbon, 2020, 157, 106-112
• Q. Chen*, D. Wei, H. Chen, L. Zhu, C. Jiao, G. Liu, L. Huang, J. Yang, L. Wang, and J. Zheng*, Simultaneous enhancement of stiffness and toughness in hybrid double network hydrogels via the first, physically-linked network. Macromolecules, 2015, 48, 8003-8015.
• Chen Q*, Zhu L, Huang L N, Chen H, Xu K, Tan Y, Wang P X, Zheng J*. Fracture of the physically cross-linked first network in hybrid double network hydrogels. Macromolecules, 2014, 47, 2140-2148.
• Xiaoqiang Yan, Qiang Chen*, Liu Zhu, Hong Chen, Dandan Wei, Feng Chen, Ziqing Tang, Jia Yang, Jie Zheng*, High Strength and Self-Healable Gelatin/Polyacrylamide Double Network Hydrogels, J Mater Chem B, 2017, 5, 7683-7691.(Front Coverpage)
• H. Chen, F. Yang, R. Hu, M. Zhang, B. Ren, X. Gong, J. Ma, B. Jiang, Q. Chen*, and J. Zheng*, A comparative study of mechanical properties of hybrid double-network hydrogels at swelling and as-prepared states, J Mater Chem B, 2016, 4, 5814-5824 (Front Coverpage + 2016 hot paper)
• Chen Q, Chen H, Zhu L, Zheng J*. Fundamentals of double network hydrogels. Journal of Materials Chemistry B, 2015, 3, 3654-3676. (ESI高被引论文，Times Cited > 202)
• Chen H#, Chen Q#, Hu R D, Wang H, Zhang Newby B, Chang Y, Zheng J*. Mechanically Strong Agar/PAM hybrid double network hydrogels with antifouling property. J Mater Chem B, 2015, 3, 5426-5435. (# equal contribution)
• Shaoping Lu#, Lin Zhu#, Qiling Wang, Zhao Liu, Cheng Tang, Huan Sun, Jia Yang, Gang Qin, Gengzhi Sun, Qiang Chen *, High Strength Albumin Hydrogels with Hybrid Cross-Linking, Frontiers in Chemistry, 2020, 8, 106.
• Yanping Fan, Dandan Chen, Zhenluo Yuan, Qiang Chen*, Guangxin Fan, Dan Zhao, and Baozhong Liu*, Flexible, Water-Resistant and Air-Stable LiBH4 nanoparticles loaded Melamine Foam with Improved Dehydrogenation, Frontiers in Chemistry, 2020, 8, 45.
• Feng Chen#, Shaoping Lu#, Lin Zhu, Qilin Wang, Ziqing Tang, Gang Qin, Jia Yang, Gengzhi Sun*, Qiang Zhang and Qiang Chen*, Conductive Regenerated Silk Fibroin-Based Hydrogels with High Strength and Toughness, J Mater Chem B, 2019, 7, 1708-1705 (Back Coverpage, Invited paper in a special issue of “Hydrogels Properties and Applications”) (# equal contribution)
• Jia Yang, Yu Li, Xianqiang Yu, Xiangbin Sun, Lin Zhu, Gang Qin*, Yahui Dai, Qiang Chen*, Tough and Conductive Dual Physically Cross-linked Hydrogels for Wearable Sensors, Industrial & Engineering Chemistry Research, 2019, 58(36), 17001-17009.
• Zhao Liu#, Ziqing Tang#, Lin Zhu*, Shaoping Lu, Feng Chen, Cheng Tang, Huan Sun, Jia Yang, Gang Qin, Qiang Chen*, Natural Protein-Based Hydrogels with High Strength and Rapid Self-Recovery, International Journal of Biological Macromolecules, 2019, 141, 108-116.
• Xiaoqiang Yan#, Jia Yang#, Feng Chen, Lin Zhu, Ziqing Tang, Gang Qin, Qiang Chen*, Guangming Chen*, Mechanical Properties of Gelatin/Polyacrylamide/Graphene Oxide Nanocomposite Double-network Hydrogels, Composites Science and Technology, 2018, 163, 81-88. (# equal contribution)
• Yu Li Jia Yang,* Xianqiang Yu, Xiangbin Sun, Feng Chen, Ziqing Tang, Lin Zhu, Gang Qin and Qiang Chen*, Controlled Shape Deformation of Bilayer Film with Tough Adhesion between Nanocompostie Hydrogel and Polymer Substrate , J Mater Chem B, 2018, 6, 6629-6636.
• Jia Yang, Yu Li, Lin Zhu, Gang Qin, Qiang Chen*, Double Network Hydrogels with Controlled Shape Deformation: a Minireview, J Polym Sci, Part B: Polym Phys, 2018, 56, 1351-1362 (Invited review in a special issue of “Tough Responsive Hydrogels and Applications as Smart Devices”).
• Xianqiang Yu#, Yu Li#, Jia Yang*, Feng Chen, Ziqing Tang, Lin Zhu, Gang Qin, Yahui Dai, Qiang Chen*, Nanoclay Reinforced Self-crosslinking Poly(N-hydroxyethyl acrylate) Hydrogels with Integrated High Performances, Macromolecular Materials and Engineering, 2018, 303, 1800295. (# equal contribution)
• Ziqing Tang#, Feng Chen#, Qiang Chen*, Lin Zhu, Xiaoqiang Yan, Hong Chen, Baiping Ren, Jia Yang, Gang Qin, Jie Zheng*, The Energy Dissipation and Mullins Effect of Tough Polymer/Graphene Oxide Hybrid Nanocomposite Hydrogels, Polymer Chemistry, 2017, 8, 4659-4672. (# equal contribution) (Coverpage)
• J Yang, L Zhu, X Q Yan, D D Wei, G Qin, B Z Liu, S Z Liu, Q Chen*, Hybrid nanocomposite hydrogels with high strength and excellent self-recovery performance, RSC Adv, 2016, 6, 59131-59140.
• Feng Chen#, Ziqing Tang#, Shaoping Lu, Lin Zhu, Qilin Wang, Qin Gang, Jia Yang, Qiang Chen*, Fabrication and Mechanical Behaviors of Novel Supramolecular/Polymer Hybrid Double Network Hydrogels, Polymer, 2019, 168, 159-167. (# equal contribution)
• Yu Li, Xueru Xiong, Xianqiang Yu, Xiangbin Sun, Jia Yang*, Lin Zhu, Gang Qin, Yahui Dai, Qiang Chen*, Tough and Conductive Nanocomposite Hydrogels for Human Motion Monitoring, Polymer Testing, 2019, 75, 38-47.
• Lidan Fan, Mengyue Wang, Zhen Zhang, Gang Qin*, Xiaoyi Hu, Qiang Chen*, Preparation and Characterization of PVA Alkaline Solid Polymer Electrolyte with Addition of Bamboo Charcoal, Materials, 2018, 11, 679.
• Dandan Wei, Jia Yang*, Liu Zhu, Feng Chen, Ziqing Tang, Gang Qin, Qiang Chen*, Fully Physical Double Network Hydrogels with High Strength, Rapid Self-Recovery and Self-Healing Performances, Polymer Testing, 2018, 69, 167-174.
• Q. Chen*, H. Chen, L. Zhu, and J. Zheng*, Engineering of tough double network hydrogels, Macromolecular Chemistry and Physics,  2016, 217, 1022-1036 (Invited trend article+coverpage)
• 朱琳，陈强*，徐昆. 高强度双网络水凝胶的增韧机理研究进展[J]，化学进展, 2014, 26(06), 1032-1038. (IF 0.714)
• Qiang Chen, Kun Xu, Wende Zhang, Chunlei Song, Pixin Wang*. Preparation and characterization of poly(N-isopropylacrylamide)/polyvinylamine core-shell microgels.  Colloid and Polymer Science. 287 (2009) 1339-1346.
• Qiang Chen, Xiaoguang Liu, Qingbo Yang, Kun Xu, Wende Zhang, Chunlei Song, Pixin Wang*. Low Cationic Proportion Ampholytic Polymer: Synthesis, Solution Properties and Interaction with Anionic Surfactant. Polymer Bulletin. 60 (2008) 545-554.
• Qiang Chen, Xiaoguang Liu, Kun Xu, Chunlei Song, Wende Zhang, Pixin Wang*. Phase behaviour and self-assembly of Poly [N-vinylformamide-co- (acrylic acid)] copolymers under high acidic condition. Journal of Applied polymer Science. 109 (2008) 2802-2807.