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副教授--王俊尧--研究方向:微纳机器人等
2022-03-19 12:40  


王俊尧

联系方式:

邮箱:junyao_0001@126.com

办公室:机械楼501

个人简介:

博士,副教授,硕士研究生导师



 

简介:

王俊尧,博士,副教授,硕士研究生导师,机械工程学院副院长,微机电与微制造创新研究所所长,入选吉林省农业信息与技术服务协会理事、中国振动工程学会动态测试专业委员会东北分会理事、首批东电学者、中国微米纳米技术学会高级会员。主持国家自然科学基金青年基金1项、吉林省科技厅基金1项、吉林省教育厅基金2项、企业横向3项,发表SCI期刊论文30余篇,出版专著1部,授权发明专利5项,荣获2021年吉林省科学技术奖自然科学奖三等奖。

 

工作学习经历:

201410月获得大连理工大学机械工程-微机电工程博士学位;

201410-20176月担任m6米乐在线入口专任教师-讲师;

20176月晋升为副教授;

20175-7月加拿大渥太华大学留学;

201911-至今担任科研副院长

 

研究方向:

1、自动化生产线研发

2、机电一体化控制研究

3、爬壁机器人研发

4、微纳尺度机器人研究

5、微纳流体控制与操纵研究

 

代表论著:

(1) 王俊尧, 徐征, 基于微纳流控技术的富集机理及控制方法研究, 吉林省科学技术三等奖, 2021.11, 编号: 2021Z30013.

(2) 王俊尧, 纳流控富集技术, 科学出版社, 120千字, 2018.11.

(3) 王俊尧, 侯琪. 一种XXX系统, 授权公告日, 2020.09.15.

(4) Jun-yao Wang, Tian-hong Lang, Huan Liu et al. Improved output force response speed of the biological gel artificial muscle prepared from carboxylated chitosan and sodium carboxymethyl cellulose. Mechanics of Advanced Materials and Structures, 2022.

(5) Jun-yao Wang, Xing-yu Chen, Huan Liu et al. Efficient mixing of microfluidic chip with a three-dimensional spiral structure. ACS Omega, 2021.

(6) Jun-yao Wang, Xing-yu Chen, Huan Liu et al. A method for manufacturing flexible microfluidic chip based on soluble material. Journal of Nanomaterials, 2021, 2021:1280338.

(7) Jun-yao Wang, Tian-hong Lang, Huan Liu et al. A novel method of manufacturing a microchannel with integrating three-dimensional microstructure arrays for mixing experiment. AIP Advances, 2021, 11(9): 095010.

(8) Jun-yao Wang, Yun-peng Li, Huan Liu et al. A 3D passive micromixer with particle of stochastic motion through limonene dissolution method. AIP Advances, 2021, 11(10): 105318.

(9) Jun-yao Wang, Qi Hou. Huan Liu et al. A rapid bonding method for fabricating mixing microfluidic chip based on micromachining technology, Journal of Nanomaterials, 2020, 2020: 8630725.

(10) Jun-yao Wang, Zheng Xu, Yong-kui Li et al. Nanopore density effect of polyacrylamide gel plug on electrokinetic ion enrichment in a micro-nanofluidic chip. Applied Physics Letters, 2013, 103(4): 043103-1-5.

(11) Jun-yao Wang*, Qi Hou. Effect of nanochannel geometry on electrokinetic ion transport in a micro-nanofluidic system. AIP Advances, 2019, 9(12): 125213-1-8.

(12) Jun-yao Wang*, Chong Liu, Zheng Xu. Electrokinetic ion transport in confined micro-nanochannel. Electrophoresis, 2016, 37(5-6): 769-774.

(13) Jun-yao Wang*, Lu-lu Han, Ye-ming Sun* et al. Alignment system and application for a micro/nanofluidic chip, Micromachines, 2018, 9(12): 621-1-9.

(14) Jun-yao Wang*, Lu-lu Han, Zheng Xu. Nano-electrokinetic ion concentration in the ion enrichment zone. Microsystem Technologies, 2019, 25(2): 711-717.

(15) Jun-yao Wang*, Zheng Xu. Electrokinetic ion breakdown in a nanochannel. AIP Advances, 2016, 6(7): 075025-1-5.

(16) Jun-yao Wang, Chong Liu, Zheng Xu et al. Ion-enrichment and ion-depletion of nanochannels based on electrochemical potential in a micro-nanofluidic chip. Microsystem Technologies, 2014, 20(1): 35-39.

(17) Jun-yao Wang, Zheng Xu, Chong Liu et al. Effects of electrophoresis and electroosmotic flow on ion enrichment in micro-nanofluidic preconcentrator. Microsystem Technologies, 2012, 18(1): 97-102.

(18) Jun-shan Liu, Jun-yao Wang, Zuan-guang Chen et al. A three-layer PMMA electrophoresis microchip with Pt microelectrodes insulated by a thin film for contactless conductivity detection. Lab on a Chip, 2011, 11(5): 969-973.

 

代表性成果:污泥自动化生产线

 

 

 

 

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