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王帆
部门: 日期:2019-05-08 10:11:51 浏览量:

基本资料


王帆 副教授、硕士生导师

    2007.09 ~ 2011.06 温州大学机械工程及自动化本科

2011.09 ~ 2013.08 韩国全南大学(Chonnam National University)

机械工程硕士

2013.09 ~ 2018.02 韩国全南大学(Chonnam National University)

机械工程博士

2018.02 ~ 2018.06 韩国全南大学(Chonnam National University)

博士后

2018.06至今 600cc大白菜官网副教授

其他学术、社会兼职:

1)担任国际期刊Bionics and Biomimetics评审编辑

2)担任国际知名SCI期刊审稿人(Advanced Functional Materials, Soft Robotics, Nanotechnology, Smart Materials and Structure, Materials Research Express, Multifunctional Materials, Advances in Materials Science and Engineering)

3)是美国机械工程学会、韩国机器人学会、韩国机械学会、韩国精密学会、韩国噪声与振动学会、韩国材料学会的正式会员

 

主要研究方向


● 软体驱动器、机器人(Soft Actuators and Robotics)

● 智能材料与结构(Smart Materials and Structures)

● 柔性传感器(Flexible Sensors)

 

获奖情况


1. 国家优秀自费留学生奖学金,2016

2. 国际期刊Smart Materials and Structures 2017年度优秀审稿人

国际期刊Nanotechnology 2016年度优秀审稿人

3. 韩国全南大学全球奖学金,2015

4. 浙江省普通高等学校优秀毕业生, 2011

 

科研项目


1. 国家自然科学基金青年项目,基于功能性细菌纤维素的大变形人工肌肉的构建、驱动机理与应用研究,26万,2020.1-2022.12,排名1

2. 浙江省自然科学基金委员会,面上项目,基于环保型细菌纤维素的电-磁多刺激响应型人工肌肉设计与实验,10万,2021-01至2023-12,排名1

3. 浙江理工大学科研启动基金项目,基于绿色纤维素的高性能仿生驱动器与能量存储器的研发,15万,2018.10~2023.09,排名1

4. 浙江理工大学科研启动基金项目,新型纤维素人工肌肉的结构设计与性能调控研究,35万,2018.10~2023.09,排名1

5. 韩国自然科学基金项目,Development of Microstructure and Platform for Cartilage Regeneration and Precise Targeting, 2016M3A9E9941514, 1200万,2016.11~2021.07,排名8/19

6. 韩国自然科学基金项目,Development of External-controlled Capsule and Multi-functional Modules, 2015M3D5A1065682, 1000万,2015.10~2018.06,排名9/35

 

发表论文


代表性期刊论文(SCI

1. Fan Wanget al, Ultralow voltage high-performance bioartificial muscles based on ionically crosslinked polypyrrole-coated functional carboxylated bacterial cellulose for soft robots.Advanced Functional Materials,31, 2007749, 2021. [SCI一区,IF:19.0,封面文章]

2. Fan Wanget al, High-performance microfibrillated cellulose-based low voltage electroactive ionic artificial muscles in bioinspired applications.Composites Part B-Engineering, 228, 109436, 2022.01. [SCI一区, IF:13.1]

3. Fan Wanget al, Highly electro-responsive ionic soft actuator based on graphene nanoplatelets-mediated functional carboxylated cellulose nanofibers.Composites Science and Technology, 231, 109845, 2023.01. [SCI一区, IF:9.1, ESI高被引论文]

4. Fan Wanget al, High-fidelity bioelectronic muscular actuator based on porous carboxylate bacterial cellulose.Sensors and Actuators B Chemical, Vol. 250, pp. 402-411, 2017.10.[SCI一区,IF:8.4]

5. Fan Wanget al, High-performance nano-biocomposite ionic soft actuators based on microfibrillated cellulose ionic liquid electrolyte membrane.Polymer Composites, 44,963-970, 2023.02. [SCI二区, IF:5.2]

6. Fan Wanget al, A low-voltage electro-ionic soft actuator based on graphene nanoplatelets-sulfonated cellulose nanowhisker combined with microfibrillated cellulose.Journal of Materials Science, 58, 466, 2023.01. [SCI三区, IF:4.5]

7. Yaofeng Wang,Fan Wang*, Yang Kong, Lei Wang, Qinchuan Li*, High Novel ionic bioartificial muscles based on ionically crosslinked multi-walled carbon nanotubes-mediated bacterialcellulose membranes and PEDOT:PSS electrodes.Smart Materials and Structures, 31, 025023, 2022.02. [SCI三区, IF:4.1]

8. Fan Wanget al, Ecofriendly electroactive AMPS‑mediated functional carboxylated cellulose nanocrystals for high‑performance ionic artificial muscles.Applied Physics A, 129, 84, 2023.01. [SCI四区, IF:2.7]

9. Fan Wanget al, Highly bendable ionic electroactive polymer actuator based on carboxylated bacterial cellulose by doping with MWCNT.Applied Physics A, 128, 911, 2022.10. [SCI四区, IF:2.7]

10. Fan Wanget al, Ecofriendly low voltage high-performance ionic artificial muscles based on bacterial cellulose nanofibers reinforced with polyvinyl alcohol.Journal of Materials Science: Materials in Electronics, 34, 123, 2023.01. [SCI四区, IF:2.8]

11. Minghui Nan, Doyeon Bang, Shirong Zheng, Gwangjun Go, Bobby Aditya Darmawan, Seokjae Kim, Hao Li, Chang-Sei Kim, Ayoung Hong,Fan Wang*, Jong-Oh Park*, Eunpyo Choi*, High-performance biocompatible nanobiocomposite artificial muscles based on ammonia-functionalized graphene nanoplatelets-cellulose acetate combined with PVDF.Sensors and Actuators B Chemical, 323, 128709 (1-12), 2020. [共同通信作者SCI一区,IF:8.4]

12. Minghui Nan#,Fan Wang#, Seokjae Kim, Hao Li, Zhen Jin, Doyeon Bang, Chang-Sei Kim, Jong-Oh Park*, Eunpyo Choi*, Ecofriendly high-performance ionic soft actuators based on graphene-mediated cellulose acetate.Sensors and Actuators B Chemical, 301, 127127 (1-10), 2019. [共同一作SCI一区,IF:8.4]

13. Fan Wanget al, Bendable and Flexible Supercapacitor Based on Polypyrrole-coated Bacterial Cellulose Core-Shell Composite Network.Composites Science and Technology, Vol. 128, pp. 33-40, 2016.05.(SCI一区,IF:9.2亮点文章)

14. Fan Wanget al, An eco-friendly ultra-high performance ionic artificial muscle based on poly(2-acrylamido-2-methyl-1-propanesulfonic acid) and carboxylated bacterial cellulose.Journal of Materials Chemistry B, Vol. 4, Issue 29, pp. 5015-5024, 2016.06.[IF:7.0]

15. Fan Wanget al, A soft biomolecule actuator based on a highly functionalized bacterial cellulose nanofiber network with carboxylic acid groups.Soft Matter, Vol. 12, No. 1, pp. 246-254, 2016.01.[IF:3.4]

代表性会议论文

1. Fan Wanget al, “Highly bendable ionic soft actuator based on carboxylated bacterial cellulose membrane and polypyrrole electrode”, The 3rd International Workshop on Active Materials and Soft Mechatronics, Daejeon, Republic of Korea, October 23-23, 2018.

2. Fan Wanget al,“Bioinspired ionic soft actuator based on core-shell-structured bacterial cellulose membrane”, The Third International Conference on Manipulation, Automation and Robotics at Small Scales, Nagoya, Japan, July 04-08, 2018. [EI收录]

3. Fan Wanget al, “Ecofriendly electroactive polymer actuator using highly porous carboxylated bacterial cellulose”, 14th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, Phuket, Thailand, June 27-30, 2017.(获大会Student Travel Grant). [EI收录]

4. Fan Wanget al, “Dry Artificial Muscles Based on Carboxylated Bacterial Cellulose Nanofibers”, 14th International Union of Materials Research Societies-International Conference on Advanced Materials (IUMRS-ICAM 2015), Jeju Island, Korea, October 25-28, 2015.

5. Fan Wanget al,“Electroactive polymer actuator based on PVDF and graphene through electrospinning”, The 3rd International Conference on Nanostructures, Nanomaterials and Nanoengineering, Hong Kong, Dec 26-28, 2014.(获大会最佳论文奖)

6. Fan Wanget al, “Biocompatible Electroactive Actuator Based on TEMPO-mediated oxidized bacterial cellulose, PEDOT:PSS, and Ionic Liquid”, the 8th Joint International Symposium Gifu University – Chonnam National University, Gwangju, Korea, Sep 17-20, 2014.(获大会最佳论文奖)

 

专利情况


1.沈文浩,王帆,肖柯烨,徐杰,钟科,齐瑞斌,基于纤维素纳米晶的湿度驱动可变色人工肌肉的制备方法,发明专利,公布号:CN115850801A,公布日:2023.03.28。

2.肖柯烨,王帆,沈文浩,郑冀贤,俞轶钻,基于混合纤维素人工肌肉的脚部保护装置,发明专利,公布号:CN115644553A,公布日:2023.01.31。

3.齐瑞斌,王帆,钟科,沈文浩,一种基于柔性离子型人工肌肉驱动器的仿蠕虫软体机器人,发明专利,公布号:CN115648191A,公布日:2023.01.31。

4.王帆,王磊,一种离子型电活性驱动器制备方法,中国发明专利,申请号:202110818399.4,申请时间:2021.07.20。

5.王帆,王磊,一种离子型电活性驱动器制备方法,中国发明专利,申请号:202110818399.4,申请时间:2021.07.20。

6.王帆,王磊,一种离子型电活性驱动器制备方法,中国发明专利,申请号:202110818399.4,申请时间:2021.07.20。

7.王帆,王灵艳,蒋嘉航,基于绿色纤维素的电致驱动器制备的开合装置,中国发明专利,申请号:202120738754.2,申请时间:2021.04.13。

8.王帆,王姚枫,基于羧基化细菌纤维素的离子型电活性驱动器的制备方法,中国发明专利,申请号:202011208368.9,申请时间:2020.11.03。

9.王帆,赵跃鹏,刘燕,税鸿棋,基于C-CNC纤维素的高性能电驱动IPMC柔性驱动器的制备方法,中国发明专利,申请号:202011083921.0,申请时间:2020.10.10。

10.王帆,王姚枫,张鹤腾,一种IPMC柔性驱动器的精密测试装置,中国发明专利,申请号:202011078845.4,申请时间:2020.10.10。


招生


长期招收研究生,推荐优秀毕业生去海外知名高校读博!热忱欢迎国内外高校企业及研究单位开展合作!

 

联系方式


● 通讯地址:浙江省杭州市下沙高教园区浙江理工大学15楼623室

● Email: fwang@zstu.edu.cn

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