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李学锋

来源:必赢线路检测3003 时间:2025-03-13

职称:教

通讯地址:必赢线路检测3003

邮编:430068

E-mail:li_xf@hbut.edu.cn

 

工作经历

1998年- 至今 bwin必赢3003,必赢线路检测3003,讲师、副教授、教授/院长

学习、进修经历

2013年 美国University of Massachusetts Dartmouth (UMD)工学院,访问学者

2007年-2008年 日本北海道大学,理学院高分子机能学科,博后

2001年-2005年 华中科技大学,化学系学习,研究生/博士学位

1995年-1998年 bwin必赢3003,化工系学习,研究生/硕士学位

1991年-1995年 bwin必赢3003,化工系学习,本科/学士学位

 

荣誉奖励

1、2022.1全国高校黄大年式教师团队“新材料与绿色化工教师团队”,负责人

2、2022.9 湖北省“荆楚好老师”

3、2023.4 “湖北省先进工作者”

4、2025.9光纤光缆专用高性能树脂制备关键技术及应用,2025湖北省技术发明奖,二等奖,负责人

5、2023.2涵人文、强实践、重创新:材料类专业高素质工程人才培养模式改革与实践,湖北省教学成果奖,一等奖,负责人

6、2024.12 “清源膜材--高污染工业废水处理开拓者”,第十二届中国大学生高分子材料创新创业大赛,一等奖,第一指导老师

7、2025.2湖北省体育产业创新创业大赛,高回弹、低收缩、柔软挺拔高端人造运动草坪制备聚烯烃树脂,湖北省银奖,第一指导老师

8、2024.6湖北省第十三届“挑战杯”大学生创业计划竞赛,省赛金奖,第一指导老师

9、2023.12第九届中国国际“互联网+”大学生创新创业大赛,国赛铜奖,省赛金奖,第一指导老师

10、2022.5多尺度策略增强聚两性电解质水凝胶及其力学行为研究,2022年湖北省复合材料学会优秀硕士学位论文,指导老师

11、2020.5英国皇家化学会(RSC)授予“2019年前1%高被引中国作者”

12、2019.3 舰船仿海豚皮涂层高强度水凝胶新材料,国家国防科工局中国第二届“源创杯”创新创意大赛南部赛区,三等奖

13、2018.2材料类专业六元结合实践教学体系的构建与改革实施,2018湖北省教学成果奖,二等奖(参与)

14、2015.12 聚合物绿色改性技术与加工关键技术与产业化,2015湖北省科技进步奖,一等奖(参与)

15、2015.12 双层网络水凝胶分子构造与摩擦性能研究,湖北省优秀硕士学位论文,指导老师

16、2012.7 碳纳米管/环氧丙烯酸酯紫外光固化涂层制备及光阻隔性能,湖北省科技厅-湖北省科协-湖北省人事厅,第十四届湖北省自然科学优秀学术论文奖,三等奖

17、2012.1高速公路混凝土纤维材料技术研究与产业化,武汉市科技进步奖,二等奖(参与)

18、2013.1清洁生产特色的环境工程专业校企联合人才培养模式改革与实践,湖北省教学成果奖,一等奖(参与)

19、2009、2010、2011、2012届本科生学位论文获“湖北省优秀学士论文”优秀指导教师

 

社会兼职

1、湖北省复合材料学会,副理士长

2、湖北省化学会橡塑专业委员会,副主任委员

3、中国材料研究会,会员

 

研究方向

1、高性能凝胶新材料的研究与应用

2、光电、新能源用改性树脂功能化与应用

3、环境友好新材料的研制

研究课题(负责人):

1、负责国家自然科学基金“高强韧高粘接性多糖复合水凝胶膜的构建及对创面抑菌与趋化因子调控机制”(52073083),结题

2、负责国家自然科学基金“生物软骨水凝胶表面高分子刷的超润滑行为研究” (51273059),结题

3、负责国家自然科学基金“带高分子刷互穿网络水凝胶生物软骨材料的制备及其润滑行为”(51143005),结题

4、负责武汉市科学技术局应用基础前沿项目“舰船仿生涂层高强度水凝胶新材料的研发”(2019010701011397),结题

5、负责湖北隆中实验室自主创新项目“陶瓷-玻璃复合固体电解质的原位构筑及其全固态锂电池”(2022ZZ-16),在研

6、负责清华大学摩擦学国家重点实验室开放基金重点项目 “3D 成型高强度水凝胶软骨支架的摩擦行为”(SKLTKF14A09),结题

7、负责中国石油集团科学技术研究院有限公司“聚合物结构与抗盐性能研究”(RIPED.CN-2019-JS-421),结题

8、负责横向项目“超强亲疏水中空纤维膜的中试研发”,结题

9、负责横向项目“新型光纤线缆防护技术中试研制”,结题

10、负责横向项目“抗污染型聚醚砜中空纤维过滤膜的研发”,在研

11、负责横向项目“通讯电缆金属塑料复合带改性树脂”,结题

12、负责横向项目“绿色再生聚烯烃的高性能开发”,结题

13、负责横向项目“可打印有机/无机温度形变复合材料技术开发”,结题

14、负责横向项目“新型记忆橡胶联合合作开发”,结题

15、负责横向项目“有机分子插入型天然纤维复合塑料的制备方法”,结题

12、负责横向项目“微晶石地板产品升级科技合作”,结题

16、负责横向项目“集成电路板密封紫外光固化粘合剂技术开发”,结题

17、负责横向项目“新型复合铝镁集装箱托盘生产技术开发”,结题

18、负责横向项目“4D打印浆料的微结构与自修复性”,结题

 

研究成果

1、代表性论文(第一或通讯作者发表学术论文100余篇,近年主要论文)

[1] Qiang Wu, Dapeng Li, Jing Liu, Shijun Long, Yiwan Huang, Xuefeng Li*. Antifouling PTFE Hollow Fiber Microfiltration Membrane with a Double-Defense Mechanism. Nano Letters, 2025, 25(17), 7081−7088.

[2] Shunlan Chen, Jing Liu, Dapeng Li, Ying Wen, Yiwan Huang, Shijun Long, Xuefeng Li*. An All-Natural Polymer-based and Bilayer-Integrated Asymmetrical Janus Hydrogel Bioadhesive Patch for Cardiac Repair. Biomacromolecules, 2025, 26(7), 4248–4261.

[3] Yuxin Zhao, Dapeng Li, Yiwan Huang, Shijun Long, ZiLiang Wu, Xuefeng Li*. High-performance, antifreezing and self-healing all-hydrogel flexible supercapacitor. Chemical Engineering Journal, 2025, 519, 165313.

[4] Longya Xiao, Yiwan Huang* , Sanyu Qian, Shijun Long, Hongjie Jiang*, Ping Rao*, Xuefeng Li*. Skin-like Soft yet Robust Hydrogels with Rapid Mechanical and Electronic Responses. Chemical Engineering Journal, 2025, 507, 1605507.

[5] Yiwan Huang,* Qin Teng, Sanyu Qian, Tao Liu, Shijun Long, Zhen Li, Jin Tao, Xuefeng Li*. Synergistically Toughening Non-Neutral Polyampholyte Hydrogels by Ionic and Coordination Bonds at Low Metal-Ion Contents. Small, 2025, 2500258.

[6] Shijun Long*, Yali Hu, Xiangkun Dong, Lianli Shen, Yusu Wang, Yiwan Huang, Xuefeng Li*. Superhydrophobic Polypropylene Surface via Migration of SiO2 Nanoparticles with Low Surface Energy. Macromolecular Rapid Communications, 2025, 2500195.

[7] Guohao Li, Lingli Shang, Dapeng Li*, Yiwan Huang, Shijun Long*, Xuefeng Li*. Construction of Silane-modified Polyampholyte Hydrogel Coatings for Multi-scale Antibiofouling. Polymer Testing, 2025,148: 108844.

[8] Hanyu Chen, Lixiao Nie, Dapeng Li, Min Xia*, Shijun Long, Yiwan Huang, Xuefeng Li*. Robust, Antifouling, and Hydrophilic Particle-Based Double-Network Hydrogel−PVDF Interpenetrating Microfiltration Membrane. Nano Letters, 2024, 24(50), 16000−16007.

[9] Shunlan Chen, Dapeng Li, Ying Wen, Gege Peng, Kexin Ye, Yiwan Huang, Shijun Long, Xuefeng Li*, Polyelectrolyte Complex Hydrogels from Controlled Kneading and Annealing‐Induced Tightly Wound and Highly Entangled Natural Polysaccharides. Advanced Healthcare Materials, 2024, 13(8), 2302973.

[10] 邱积武,王鹏,邱迪,袁亚,龙世军,祁红义,李学锋*, 接枝石油树脂提高热熔膜与不锈钢的界面粘接力, 高分子材料科学与工程,2024,40(02), 124-133.

[11] Hanyu Chen, Yonglin Wang, Dapeng Li, Yuxin Zhao, Biqing Wan, Shijun Long*, Yiwan Huang, Xuefeng Li*. Construct Flexible, Durable Supercapacitors via Antifreezing Polyampholyte Hydrogels. ACS Applied Polymer Materials, 2024, 6(14), 8449–8460.

[12] Xuefeng Li*, Xin Mei, Mengfan Chen, Dapeng Li*, Qi Zeng, Jiayi Zhu, Shijun Long and Yiwan Huang*, Solvent-induced phase separation and Hofmeister effect enhanced strong, tough, and adhesive polyion complex hydrogels. Chemical Engineering Journal, 2024, 497, 154673.

[13] 吴强,商伶俐,李学锋*,张高文,黄以万,龙世军,多糖聚电解质静电组装高强度水凝胶膜的组织粘接抑菌性,材料导报,2024,38(18), 23030284.

[14] Xin Dong, Dezheng Hu, Huaqing Wang, Yiwan Huang, Shijun Long, Gaowen Zhang and Xuefeng Li*, Mechanical characterizations, recyclability of thermoplastics through melt grafting a dynamic covalent network onto polyethylene, Polymer Testing, 2023, 122, 108005.

[15] Mengfan Chen, Xuefeng Li*, Dapeng Li,* Jiaqi Shen, Shijun Long and Yiwan Huang*, Anti-swelling P(DAC-co-NaSS-co-VDT) polyampholyte hydrogel with solvent displacement and salinity enhanced wet strength and adhesion, Polymer Testing, 2023, 124, 108089.

[16] 陈顺兰,商伶俐,陈晗予,黄以万,龙世军,张高文,李学锋*, 耐海洋生物污损的卟啉铁复合多糖聚电解质高性能水凝胶膜, 高分子材料科学与工程, 2023, 39(3), 118-126.

[17] 陈顺兰,许丹妮,李学锋*,彭格格,黄以万,龙世军,张高文, 金属离子配位交联的热敏双网络水凝胶环境响应性黏附行为, 高等学校化学学报,2023, 44(8), 20230192.

[18] Hanyu Chen, Qiang Wu, liqing Ai, Dapeng Li, Shijun Long, Yiwan Huang and, Xuefeng Li*, Construct durable, antifouling double network hydrogel coatings on PTFE hollow fiber membranes via silane grafting, Journal of Membrane Science, 2023, 687, 122073.

[19] Xuefeng Li*, Yuxin Zhao, Danni Xu, Dapeng Li*, Wei Wang, Dezheng Hu, Yiwan Huang, Shijun Long*, Thermoresponsive double-network hydrogel/elastomer hybrid bilayer laminates with high interfacial toughness and controllable shape deformations, Polymer, 2023, 286, 126381.

[20] Yiwan Huang*, Sanyu Qian, Ju Zhou, Wenjun Chen, Tao Liu, Sheng Yang, Shijun Long, and Xuefeng Li*, Achieving Swollen yet Strengthened Hydrogels by Reorganizing Multiphase Network Structure, Advanced Functional Materials, 2023, 33(22), 2213549.

[21] Ren Long, Shijun Long, Lele Zou, Zhihan Huang, Yiwan Huang, Chuanqun Hu*, Dapeng Li, Xuefeng Li*, Rheology, crystallization, and enhanced mechanical properties of uniaxially oriented ethylene–octene copolymer/polyolefin elastomer blends, Polymer, 2022, 243, 124655.

[22] Xuefeng Li*, Lingli Shang, Dapeng Li, Wei Wang, Shunlan Chen, Hanwen Zhong, Yiwan Huang*, and Shijun Long, High-Strength, Strong-Adhesion, and Antibacterial Polyelectrolyte Complex Hydrogel Films from Natural Polysaccharides,  Polymer Testing, 2022, 109, 107547.

[23] 许丹妮,夏敏,李学锋*,陈顺兰,王慧,黄以万,龙世军, 离子模板交联法调控聚乙烯醇/海藻酸钠水凝胶的可控变形行为, 高分子材料科学与工程, 2022, 38(1), 1-9.

[24] Xun Li, Min Xia, Xin Dong, Ren Long, Yuanhao Liu, Yiwan Huang, Shijun Long, Chuanqun Hu,* Xuefeng Li*, High Mechanical Properties of Stretching Oriented Poly(butylene succinate) with Two-Step Chain Extension, Polymers, 2022, 14, 1876.

[25] Xuefeng Li*, Yonglin Wang, Dapeng Li*, Caiwei Shen, Mengfan Chen, Shijun Long,  and Yiwan Huang,Tough, flexible, and durable all-polyampholyte hydrogel supercapacitor, Polymer Testing, 2022, 115, 107720.

[26] Xuefeng Li, Chuanqi Feng, Feng Wang*, Huimin Wu*,Synthesis of phosphide on etched nickel foam as bifunctional electrocatalyst for urea‑water electrolysis, Ionics, 2022, 28, 5081-5088.

[27] 袁亚,龙世军,李学锋*,铝塑复合带用黏合层树脂的流动温度依赖性, 高分子材料科学与工程,2022,38(3), 62-73.

[28] XueFeng Li *, Hanyu Chen, Xueyin Peng, Dapeng Li, Wei Wang, Mengfan Chen, Dezheng Hu, Shijun Long, and Yiwan Huang, One-Pot Synthesis of Polyelectrolyte-Triazine Gels Using Cation–π Interactions and Multiple Hydrogen Bonds for Adjustable Interfacial Adhesion, Macromolecular Rapid Communications, 2022, 43(21), 2200464.

[29] Yiwan Huang*, Longya Xiao, Ju Zhou, Tao Liu, Yongqi Yan, Shijun Long, Xuefeng Li*, Strong Tough Polyampholyte Hydrogels via the Synergy of Ionic and Metal-Ligand Bonds, Advanced Functional Materials, 2021, 31, 2103917.

[30] Xuefeng Li*, Yonglin Wang, Dapeng Li, Mengmeng Shu, lingli Shang, Min Xia, Yiwan Huang, High-strength, thermosensitive double network hydrogels with antibacterial functionality, Soft Matter, 2021,17, 6688 - 6696.

[31] Xun Li, Min Xia, Di Qiu, Ren Long, Zihan Huang, Jie Li, Shijun Long, Xuefeng Li*, Fabrication and Properties of Modified Poly(butylene terephthalate) with Two‐Step Chain Extension, Macromolecular Materials and Engineering, 2021, 306(03), 2000638.

[32] Shijun Long, Zhihua Ye, Yiqi Jin, Jiacheng Huang, Yiwan Huang, Yonggui Liao*, Xuefeng Li*, High‐Performance Photochromic Hydrogels for Rewritable Information Record, Macromolecular Rapid Communications, 2021, 42(7), 2000701.

[33] Yikun Zhang, Junjie Xue, Dapeng Li, Haiyan Li, Zihan Huang, Yiwan Huang, Chunjie Gong, Shijun Long, Xuefeng Li*, Tough hydrogels with tunable soft and wet interfacial adhesion, Polymer Testing, 2021, 93, 106976.

[34] 彭雪银,李学锋*,李荣哲,李婕,龙世军,黄以万,多重氢键增强的带乙烯基二氨基三嗪水凝胶的记忆性能与药物的选择吸附, 复合材料学报, 2021, 38(02), 470-478.

[35] Xuefeng Li*; Danni Xu; Hui Wang; Chunjie Gong; Haiyan Li; Yiwan Huang; Shijun Long; Dapeng Li*, Programmed transformations of strong polyvinyl alcohol/sodium alginate hydrogels via ionic crosslink lithography, Macromolecular Rapid Communications, 2020, 41, (11), 2000127.

[36] Xuefeng Li*; Xueyin Peng, Rongzhe Li, Yikun Zhang, Zuifang Liu,* Yiwan Huang, Shijun Long, Haiyan Li, Multiple Hydrogen Bonds-Reinforced Hydrogels with High Strength, Shape Memory, and Adsorption Antiinflammatory Molecules, Macromolecular Rapid Communications, 2020, 41, (14), 2000202.

[37] Shijun Long, Di Qiu, Ren Long, Xun Li, Hanyu Chen, Yiwan Huang, Xuefeng Li*, Design of aluminum trihydroxide and P-N core-shell structuresand their synergistic effects on halogen-free flame-retardant polyethylene composites, Polymers for Advanced Technologies, 2020, 31(9), 2020-2030.

[38] 王慧,龙世军,黄以万,李海燕,李学锋*,离子双交联海藻酸钠/聚(丙烯酰胺-co-丙烯酸)高强度水凝胶的研究, 材料导报, 2020, 34(8), 16149-16154.

[39] 龙世军,邱迪,王鹏,黎勋,祁红义,李学锋*,光缆护套料用高密度聚乙烯/线型低密度聚乙烯的界面作用与流变行为,高分子材料科学与工程, 2020, 36(4),67-74.

[40] Yikun Zhang, Dapeng Li, Yiwan Huang, Shijun Long, Haiyan Li, Xuefeng Li*, Super Bulk and Interfacial Toughness of Amylopectin Reinforced PAAm/PVA Double-Network Hydrogels via Multiple Hydrogen Bonds, Macromolecular Materials and Engineering, 2020, 305(1), 1900450.

[41] Xuefeng Li*, Peng Wang, Shijun Long, Yiwan Huang, Haiyan Li, Chuanqun Hu*, Interfacial Adhesion and Water Resistance of Stainless Steel–Polyolefin Improved by Functionalized Silane,Polymer Engineering and Science, 2019, 59(9), 1866–1873.

[42] 李荣哲,李学锋*,龙世军,黄以万,舒萌萌, 带氢键吸附功能高强度水凝胶的制备与性能研究,高分子材料科学与工程,2019,35(9),126-133.

[43] Xuefeng Li*, Youjiao Zhao, Dapeng Li*, Gaowen Zhang, Xiang Gao, Shijun Long*, Highly stretchable, tough, and self‐recoverable and self‐healable dual physically crosslinked hydrogels with synergistic “soft and hard” networks,Polymer Engineering and Science, 2019, 59(1), 145-154.

[44] Peng Wang, Heng Xu, Di Qiu, Youjiao Zhao, Shijun Long*, Xuefeng Li*, Improved mechanical and rheological properties of recycled polyethylene by acrylic acid-assistedmelt grafting of glycidyl methacrylate,Plastics, Rubber and Composites Macromolecular Engineering, 2019, 48(10), 440-447.

[45] Mengmeng Shu, Shijun Long, Yiwan Huang, Dapeng Li, Haiyan Li, Xuefeng Li*, High Strength and Antibacterial Polyelectrolyte Complex CS/HS Hydrogel Films for Wound Healing,Soft Matter, 2019, 15, 7686-7694.

[18] 龙世军,陈明敏,赵友姣,王小涛,李学锋*,廖永贵*,Gemini 对PVA 分散螺吡喃有机凝胶薄膜光致变色行为的调控,高等学校化学学报,2018,39(5),1078-1083.

[46] Xuefeng Li*, Rongzhe Li, Zuifang Liu*, Xiang Gao, Shijun Long, Gaowen Zhang, Integrated Functional High‐Strength Hydrogels with Metal‐Coordination Complexes and H‐Bonding Dual Physically Cross‐linked Networks, Macromolecular Rapid Communications, 2018, 39(23), 1800400.

[47] Xuefeng Li*, Hui Wang, Dapeng Li, Shijun Long, Gaowen Zhang, and ZiLiang Wu, Dual Ionically Cross-linked Double-Network Hydrogels with High Strength, Toughness, Swelling Resistance, and Improved 3D Printing Processability,ACS Applied Materials & Interfaces, 2018, 10(37), 31198−31207.

[48] Xuefeng Li*, Heng Xu, Shijun Long, Ya Yuan, Peng Wang, Di Qiu, Kai Ke,Improved compatibility in Recycled-PE / LDPE using glycidyl methacrylate, acrylic acid grafted mPE, Polymer Testing, 2018, 69, 508–513.

[49] Xuefeng Li*, Yikun Zhang,Qian Yang,Dapeng Li,Gaowen Zhang,Shijun Long*,Agar/PAAc-Fe3+ hydrogels with pH-sensitivity and high toughness using dual physical cross-linking, Iranian Polymer Journal, 2018, 27(11), 829–840.

[50] 赵友姣,李学锋*,龙世军,张高文,徐恒,不同盐溶液对杂化双交联聚丙烯酸水凝胶力学性能的调控,高分子材料科学与工程,2018,34(4),63–68.

[51] Xuefeng Li*, Mengmeng Shu, Han Li, Xiang Gao, Shijun Long, Tao Hu, Chonggang Wu*, Strong, tough and mechanically self-recoverable poly(vinyl alcohol)/alginate dual-physical double-network hydrogels with large cross-link density contrast, RSC Advance, 2018, 8, 16674–16689.

[52] Li Xuefeng*, Zhao Youjiao, Dapeng Li, Zhang Gaowen,Long Shijun*, Wang Hui, Hybrid dual crosslinked polyacrylic acid hydrogels with ultrahigh mechanical strength, toughness and self-healing properties via soaking salt solution, Polymer, 2017, 121 (7) , 55-63.

[53] Li Xuefeng*, Yang Qian, Zhao Youjiao, Long Shijun and Zheng Jie, Dual Physically Crosslinked Double Network Hydrogels with High Toughness and Self-Healing Properties, Soft Matter, 2017, 13(5), 911-920.

[54] Yang Qian, Li Jian, Xu Heng, Long Shijun, Li Xuefeng*, Friction of Sodium Alginate Hydrogel Scaffold Fabricated by 3-D Printing, Journal of Biomaterials Science, Polymer Edition, 2017, 28(5), 459-469.

[55] 李坚,李学锋*,龙世军,李晗,黄大华,3D成型聚乙烯醇水凝胶支架的摩擦行为,复合材料学报,2016,33(11),2412-2418.

[56] 杨倩,李学锋*,龙世军,袁 亚, 多价金属离子增强琼脂-聚丙烯酸复合双网络水凝胶及其自修复性能,复合材料学报,2017,34(7),41-47.

[57] 李晗,李学锋*,龙世军,黄大华,李坚,杂化交联PAAm/SA双网络水凝胶在多价态离子溶液中的润滑行为,功能材料,2016,47(10),10086-10090.

[58] 李学锋*,黄大华,龙世军,李坚,李晗, PVC/CPE/CaCO3复合材料熔体的动态流变行为,材料工程,2017,45 (6),73-79.

[59] 李学锋*,袁亚,黄大华,陈明敏,徐恒, 硬质PVC复合改性界面研究进展,高分子通报,2016,(8),12-17.

[60] 李学锋*,王红春,张高文,高分子材料专业综合改革实践,高教学刊,2016(8):92-93.

[61] Li Xuefeng, Wu Chu, Yang Qian, Long Shijun and Wu Chonggang, Low-velocity super-lubrication of sodium-alginate/polyacrylamide ionic–covalent hybrid double network hydrogels, Soft Matter, 2015, 11(15), 3022-3033.

[62] 李学锋*, 张高文,工程教育培养创新创业复合型人才,高分子通报,2015,(4),86-89.

[63] Dan Zou, Xuefeng Li*, Shijun Long, Qianwen Chen, Effect of Compatibilizer on Rheological Behaviors of Straw Fiber/ Low-Density Polyethylene Composites, Plastics, Rubber and Composites: Macromolecular Engineering, 2015, 44(6), 238-244.

 

2、发明人专利(负责人):

[1] 一种高水通量耐腐蚀的PTFE中空纤维膜双网络聚合物亲水性改性方法,2025.7.18,ZL 202310136683.2

[2] 铝塑复合用可生物降解高粘接性抗菌树脂及其制备方法,中国发明专利授权,2025.2.7,ZL 202310160399.9

[3] 一种组织粘接抑菌性水凝胶膜及其制备方法,2023.6.20,中国发明专利授权,ZL 202210698521.3

[4] 环境响应性黏附的锆离子交联热敏水凝胶制备方法,2025.06.17,ZL 202210661673.6

[5] 一种可吸附染料与抗盐的油水分离水凝胶的制备方法,2023.6.20,中国发明专利授权,ZL 202210655106.X

[6] 一种高性能循环利用的枝化动态交联再生聚乙烯树脂的制备方法,2024.06.26,中国发明专利授权,ZL 202210704194.8

[7] 一种用于人造草坪的纤维丝及其制备方法,2023.6.20,中国发明专利授权,ZL 202210656982.4

[8] 一种可4D打印温敏性水凝胶弹性体亲疏水材料及其制备方法和应用,2023.6.27,中国发明专利授权,ZL 202210697350.2

[9] 李学锋,商伶俐,朱华雄,黄以万,陈梦繁,王永林,董鑫,刘若卿,bwin必赢3003,一种抑菌与耐海藻粘附的硅烷改性聚两性电解质水凝胶高粘接涂层及其制备方法,2022.12.2,中国发明专利授权,ZL 202210097535.X

[10] 一种可自修复循环加工成型的聚(两性电解质-三嗪)/石英砂复合材料及其制备方法,中国发明专利授权,2022.2.1,ZL 202110676143.4

[11] 强氢键与阳离子π协同高粘附复合水凝胶膜的制备方法,中国发明专利授权,2022.3.15,ZL 202110051710.7

[12] 可打印成型的高强度体温释放药物抗菌水凝胶的制备方法,中国发明专利授权,2023.1.20,ZL 202010446940.9

[13] 一种可自修复循环加工成型的聚(两性电解质-三嗪)/石英砂复合材料及其制备方法,中国发明专利授权,2022.2.1,ZL 202110676143.4

[14] 一种光缆护套用高性能和耐水解的聚对苯二甲酸丁二醇酯树脂的改性方法,中国发明专利授权,2022.2.1,ZL 202010067268.2

[15] 聚(丙烯酰胺- VDT)TA高强度水凝胶的制备方法,中国发明专利授权,2022.3.4,ZL 201910543427.9

[16] 氢氧化铝表面修饰协同无卤阻燃高韧性电缆护套料的制备方法,中国发明专利授权,2021.8.10,ZL 201910544873.1

[17] 一种极性增强与柔性增粘聚烯烃不锈钢耐水复合带的制备方法,中国发明专利授权,2022.2.1,ZL 201910502028.8

[18] 强氢键作用高强度与高粘附的支链淀粉复合水凝胶膜的制备方法,中国发明专利授权,2021.11.2,ZL 201910160703.3

[19] 可3D打印的琼脂/聚丙烯酰胺双氢键协同交联高韧性水凝胶的制备方法,中国发明专利授权,2021.1.13,ZL 201810044519.8

[20] 抗菌性高强度壳聚糖-肝素钠离子复合物自组装水凝胶膜的制备方法,中国发明专利授权,2021.5.4,ZL 201811218022.X

[21] 一种高粘接强度耐热水浸泡的金属/塑料复合带制备方法,中国发明专利授权,2020.12.01,ZL 201810660459.2

[22] 可3D打印的铁离子双交联海藻酸盐-聚丙烯酰胺丙烯酸高性能水凝胶的制备方法,中国发明专利授权,2020.5.26,ZL 201810115766.2

[23] 聚丙烯酰胺-丙烯酸-VDT物理交联高强度水凝胶的制备方法,中国发明专利授权,2020. 5.26,ZL 201711059954.X

[24] 双物理交联聚丙烯酸高强度、高韧性水凝胶的制备方法,中国发明专利授权,2020.6.2,ZL 201710891648.6

[25] 离子/化学杂化交联聚丙烯酸高强度水凝胶的制备方法, 中国发明专利授权,2019.04.19, ZL 201710043157.6

[26] 一种琼脂/聚丙烯酸全物理交联自修复高强度双网络水凝胶的制备方法, 中国发明专利授权,2019.07.09, ZL 201610571037.9

[27] 3D打印海藻酸钠/聚乙烯醇全物理交联双网络水凝胶支架的方法,中国发明专利授权,2019.07.16, ZL 201610572966.1

[28] 一种海藻酸钠琼脂双网络天然水凝胶材料的制备方法,中国发明专利授权,2018.3.23,ZL 201510746499.5

[29] 一种利用3D打印制备聚乙烯醇纳米氧化硅复合水凝胶支架的方法,中国发明专利授权,2017.7.7,ZL 2015100871384

[30] 一种利用3D打印制备高强度双网络水凝胶支架的方法,中国发明专利授权,2017. 2.20,ZL 2015100871191

[31] 大分子电解质提高中性水凝胶吸水率的方法,中国发明专利授权,2016.12.01,ZL 201410621198.5

[32] 一种可疲劳修复的高强度双层网络水凝胶的制备方法,中国发明专利授权,2016.1.20,ZL 201410008538.7

[33] 碱脲解缠结秸秆树脂复合板的制备方法,中国发明专利授权,2016.2.10,ZL 2013106720868

[34] 一种原位复合短纤维/水凝胶的制备方法,中国发明专利授权, 2016.4.6,ZL 2013107021150

[35] 紫外光固化耐银离子迁移型等离子显示器电路保护剂及其制备方法,中国发明专利授权,2014.8,ZL 201110065782.3

[36] 有机分子插入型天然纤维复合塑料的制备方法,中国发明专利授权,2013.9,ZL 201110265092.2

[37] 手形自适应性球拍,中国发明专利授权,2006.4.12,ZL 200410012640.0

 

3、著作

[1] 编著英文学术专著“Atomic Force Microscopy / Book 2 (ISBN 979-953-307-864-8, INTECH) ”,一章内容。

[2] 编著教材“聚合物共混改性原理及应用”(化学工业出版社,普通高等教育十二五规划教材,ISBN:9787122116123),一章内容。