邮 箱: junjie_yang90@qq.com
联系方式: 15043252906
办公室: 二教827室
个人简介: 博士,副教授,硕导,“东电学者”三层次
简介:
近年来以第一/通讯作者,在国际权威的学术期刊上发表SCI论文近30篇,发表EI期刊及会议论文5篇;申请国家发明专利30余项(已授权17项);主持国家自然科学基金-青年科学基金项目1项,吉林省科技厅-科技发展计划项目1项,吉林省教育厅-科技研究重点项目1项,吉林市科技局-科技创新发展计划项目1项,东北电力大学-博士科研启动基金项目1项,参与国家自然科学基金-面上项目2项;“中国机械工程学会”会员、“国际仿生工程学会”会员;现为Nature Communication、Sensors and Actuators B: Chemical、Cellulose、Smart Materials and Structures、Sensors and Actuators A: Physical等多个高水平SCI期刊的审稿人。
工作学习经历:
2014-09至2019-12,哈尔滨工程大学,机械工程专业,博士(硕博连读);
2019年12月 至今,东北电力大学,机械工程学院,副教授。
研究方向:
1、仿生结构与人工肌肉器件
2、智能传感及柔性驱动一体化技术
3、绿色新能源响应性微/纳离子凝胶构筑
团队成员:
已毕业:王思永、韦康,博士:于涛(西安交通大学),研三:姜震、方铭践,研二:沙桐、王申功、文元,研一:孙吉鸿,李威龙,王龙飞
代表性成果:
科研项目(7项)
1、主持:国家自然科学基金-青年科学基金项目,基于仿生肌肉结构的生物质凝胶人工肌肉的抗疲劳性能及能量耗散机制研究,30万;
2、主持:吉林省科技发展计划项目,天然高分子凝胶基人工肌肉的智能响应特性及微纳调控机制研究,10万;
3、主持:吉林省教育厅科学技术研究项目,凝胶基仿生人工肌肉的柔性驱动特性及力电耦合机制研究,5万;
4、主持:吉林市科技创新发展计划项目,生物凝胶质电致动器件的响应致动寿命特性及疲劳失效机理研究,10万;
5、主持:东北电力大学博士科研启动基金项目,生物质凝胶人工肌肉器件构筑及石墨烯复合强韧化机理研究,5万;
6、参与:国家自然科学基金-面上项目,生物凝胶类仿生人工肌肉输出力震颤行为及其抑制研究,82万;
7、参与:国家自然科学基金-面上项目,仿生射流表面减阻特性及减阻机理研究,86万;
学术论著(24篇)
1、Junjie Yang*, Kang Wei, Jintong Yao, et al. Regulatory and enhancement mechanism of a micro-nano material of sodium polystyrene sulfonate on the electro-responsive fatigue resistance of ion gel artificial muscles by cross-linking reaction[J]. Sensors and Actuators B: Chemical. 2024, 412(3): 135844(SCI收录,中科院“双一区”Top期刊,影响因子9.221)
2、Junjie Yang*, Siyong Wang, Jintong Yao, et al. Slow‑release efect of absolute ethanol on electro‑mechano‑chemical behavior and strengthening mechanism of an electric‑responsive biomass paper actuator based on calcium alginate hydrogel[J]. Cellulose. 2024, 31: 463-478(SCI收录,中科院一区Top期刊,影响因子6.123)
3、Junjie Yang*, Mingjian Fang, Kang Wei, et al. The enhancement of intelligent electric response properties in the Polymer Gel Artificial Muscle (PGAM) by incorporating micro/nanoscaled doping and regulation of Graphene Oxide (GO)[J]. Sensors and Actuators A: Physical. 2024, 371: 115330(SCI收录,中科院二区期刊,影响因子4.291)
4、Junjie Yang*, Tao Yu, Jintong Yao, et al. Improving flexible actuating behaviors of gel-based artificial muscles through chamomile polysaccharide crosslinking[J]. Smart Materials and Structures. 2024, 33(12): 125045(SCI收录,中科院三区期刊,影响因子4.131)
5、Junjie Yang*, Shengong Wang, Siyong Wang, et al. Optimizing the fatigue-resistant actuation performance of gel-based bionic artificial muscles (GBAMs): A comparative study on crosslinking agents[J]. Journal of Applied Polymer Science. 2024, 55696(SCI收录,中科院三区期刊,影响因子3.057)
6、Junjie Yang*, Tao Yu, Jintong Yao, et al. Application of MWCNT‑SA based sol–gel coatings to enhance the electrically‑actuated performance of biomass hydrogel paper actuators[J]. Cellulose. 2023, 30: 1741-1757(SCI收录,中科院一区Top期刊,影响因子6.123)
7、Junjie Yang*, Siyong Wang, Jintong Yao, et al. Electrically actuated characteristics and electrochemical mechanism of a flexible biomimetic artificial muscle regulated by the responsive polymer of the calcium alginate gelation[J]. Polymer Testing. 2023, 126: 108163(SCI收录,中科院一区期刊,影响因子5.000)
8、Junjie Yang*, Tong Sha, Tao Yu, et al. Investigation into the high electroactuation performance of a gelatinous biomimetic artificial muscle constructed using glycyrrhiza polysaccharide cross-linking modification[J]. Sensors and Actuators A: Physical. 2023, 364: 114809(SCI收录,中科院二区期刊,影响因子4.291)
9、Junjie Yang*, Zhen Jiang, Siyong Wang, et al. Actuation performances and microscopic mechanism of a stimuli-responsive artificial muscle based on the chelation of sodium alginate with CaI2 ·4H2O[J]. Smart Materials and Structures. 2023, 32: 085003(SCI收录,中科院二区期刊,影响因子4.131)
10、杨俊杰*, 于涛, 韦康, 等人. 凝胶基仿生人工肌肉的输出力特性改善工艺与机理[J]. 高分子材料科学与工程. 2023, 38(2): 117-125(EI收录,中文核心期刊)
11、Junjie Yang*, Jintong Yao, Siyong Wang. Electromechanical response performance of a reinforced biomass gel artificial muscle based on natural polysaccharide of sodium alginate doped with an ionic liquid for micro-nano regulation[J]. Carbohydrate Polymers. 2022, 275: 118717(SCI收录,中科院“双一区”Top期刊,影响因子10.723)
12、Junjie Yang*, Siyong Wang, Jintong Yao, et al. Mechanochemical characteristics and influence mechanisms of a biomass hydrogel artificial muscle based on different parameters of the sodium alginate adjustment[J]. Smart Materials and Structures. 2022, 31(5): 055002(SCI收录,中科院二区期刊,影响因子4.131)
13、Junjie Yang*, Kang Wei, Tao Yu, et al. Technology efficiency and promotion mechanism on the response output performance of a biomimetic gelatinous polymer actuator based on different process approaches[J]. Journal of Applied Polymer Science. 2022, 52318(SCI收录,中科院三区期刊,影响因子3.057)
14、Junjie Yang*, Jintong Yao, Yingying Ma. A highly flexible, renewable and green alginate polymer for electroactive biological gel paper actuators reinforced with a double-side casting approach[J]. Cellulose. 2021, 28(6): 3647-3662(SCI收录,中科院一区Top期刊,影响因子6.123)
15、Junjie Yang*, Zhijie Wang, Gang Zhao. Investigation into output force performance of an ionic polymer artificial muscle based on freeze-drying process[J]. Sensors and Actuators A: Physical. 2021, 321: 112427(SCI收录,中科院二区期刊,影响因子4.291)
16、Junjie Yang*, Zhijie Wang, Jintong Yao, Siyong Wang. Effect and mechanism of various pre-freezing temperatures on the deflection response of a highly biocompatible hydrogel artificial muscle[J]. Sensors and Actuators A: Physical. 2021, 332(1): 113126(SCI收录,中科院二区期刊,影响因子4.291)
17、Junjie Yang*, Zhijie Wang, Siyong Wang. Glycerol-regulated tough and electroresponsive alginate hydrogels for a muscle-like biobased polymer actuator with highly sensitive and durable output force[J]. Journal of Applied Polymer Science. 2021, 138(47): 51393(SCI收录,中科院三区期刊,影响因子3.057)
18、Junjie Yang*, Jintong Yao, Shan Guan. Enhanced electroresponsive and electrochemical properties of the biological gel artificial muscle prepared by sodium alginate and carboxylated chitosan[J]. Sensors and Actuators B: Chemical. 2020, 322(3): 128526(SCI收录,中科院“双一区”Top期刊,影响因子9.221)
19、Junjie Yang, Qilong Sun, Gang Zhao*, et al. Study on preparation process improvement and performance test standard of gel electric actuator. MATEC Web of Conferences. 2017, 125: 292-297(EI会议收录)
20、Gang Zhao, Junjie Yang, Yujian Wang, et al. Investigation into response characteristics of the chitosan gel artificial muscle[J]. Smart Materials and Structures. 2018, 27(1): 015001(SCI收录,中科院二区期刊,影响因子4.131)
21、Gang Zhao, Junjie Yang, Yujian Wang, et al. Preparation and electromechanical properties of the chitosan gel polymer actuator based on heat treating[J]. Sensors and Actuators A: Physical. 2018, 279: 481-492(SCI收录,中科院二区期刊,影响因子4.291)
22、Gang Zhao, Junjie Yang, Yuda Wu, et al. Fabrication process and enhanced electromechanical properties of the muscle-like gel actuator doped with glycerol[J]. Materials Research Express. 2018, 5(9): 095701(SCI收录,中科院四区期刊,影响因子2.025)
23、Gang Zhao, Junjie Yang, Yuda Wu, et al. Test standard and output force characteristics of the electroresponsive biomimetic actuator based on calcium alginate hydrogel[J]. Materials Research Express. 2018, 5(9): 095704(SCI收录,中科院四区期刊,影响因子2.025)
24、Gang Zhao, Junjie Yang, Yuda Wu, et al. Investigation on output-force tremor characteristics of the bionic electric actuator modified by CaCl2 and glycerol[J]. Materials Research Express. 2018, 5(11): 115704(SCI收录,中科院四区期刊,影响因子2.025)
发明专利(12项)
1、杨俊杰,王思永,等人. 一种天然高分子水凝胶人工肌肉器件的多工艺耦合强韧方法,中国,已授权,2024
2、杨俊杰,于涛,等人. 一种类针灸仿鱿鱼肌纤维的人工肌肉输出力改善工艺,中国,已授权,2024
3、杨俊杰,姜震,等人. 一种生物聚合物人工肌肉及其制备方法和应用,中国,已授权,2024
4、杨俊杰,于涛,等人. 联合3D打印与类消失模铸造的叠层式人工肌肉构建工艺,中国,已授权,2023
5、杨俊杰,王思永,等人. 仿象鼻多关节结构的柔韧性变刚度人工肌肉器件构筑工艺,中国,已授权,2023
6、杨俊杰,韦康,等人. 一种仿生人工肌肉集束结构的制备方法和电驱动控制方法,中国,已授权,2023
7、杨俊杰,姚金彤,等人. 一种天然双性生物质凝胶人工肌肉器件的构筑方法,中国,已授权,2023
8、杨俊杰,姚金彤,等人. 一种石墨烯复合强韧化多孔质凝胶电致动膜的制备方法,中国,已授权,2023
9、赵刚,杨俊杰,等人. 一种制备海藻酸钙电致动膜的喷雾交联装置及喷雾交联方法,中国,已授权,2020
10、赵刚,杨俊杰,等人. 一种装配海藻酸钙水凝胶人工肌肉的实验用干燥模具,中国,已授权,2020
11、赵刚,杨俊杰,等人. 一种加工海藻酸钙水凝胶CAH人工肌肉的热处理工艺方法,中国,已授权,2019
12、赵刚,杨俊杰,等人. 一种装配海藻酸钙水凝胶CAH人工肌肉的浇铸工艺方法,中国,已授权,2019
