姓名:王晓雯
职称:讲师
专业:机械电子工程
邮箱:WXW2435461356@163.com
教育背景:
本科 烟台大学 机电汽车工程学院 测控技术与仪器 2017.9-2021.6
硕士 烟台大学 机电汽车工程学院 机械工程 2021.9-2024.6
工作履历
2024.06-至今 烟台理工学院机电工程学院 讲师
研究领域:
1、多物理场(光、磁、化学)驱动的仿生软体微型机器人的制造及其在环境保护、智能运输、生物医学领域的应用
2、智能材料的合成与分析
教科研项目及获奖情况:
1、科研项目
主持 2023 年烟台大学研究生重点科创项目,KKGIFYTU2316,多物理场驱动的仿生微型机器人的研究,6000 元
2、论文发表
共计发表论文17篇,其中以第一作者发表论文12 篇,其中SCI论文11篇,EI论文1篇。
[1] Wang X, Yuan Z, Guo Q, et al. An Underwater Bionic Snake Soft Robot with Tunable Deformation and Motion Based on Composite Materials[J]. Advanced Materials Technologies, 2023: 2202012. (SCI, IF: 8.856, JCR Q1, 中科院2区,23年发表)
[2] Wang X, Ge Z, et al. Magnetically controlled millipede inspired soft robot for releasing drugs on target area in stomach[J]. IEEE Robotics and Automation Letters, 2024. (SCI, IF: 5.2, JCR Q1, 中科院2区Top,24年发表)
[3] Wang X, Wang W, Liu H, et al. Bionic Sea Anemone Actuator with a Double-Layered Gripper Driven by Multiple Physical Fields[J]. ACS Applied Polymer Materials, 2023, 5(7): 5582-5591. (SCI, IF: 5, JCR Q1, 中科院2区,23年发表)
[4] Wang X, Wang Z, et al. A multi-stimulus-responsive bionic fish microrobot for remote intelligent control applications[J]. Soft Matter, 2023, 19(5): 913-920. (SCI, IF: 4.046, JCR Q2, 中科院2区,23年发表)
[5]Wang X, Wang Z, et al. Light-powered microrobots: Recent progress and future challenges[J]. Optics and Lasers in Engineering, 2023, 161: 107380. (SCI, IF: 5.666, JCR Q1, 中科院2区,23年发表)
[6] Wang X, Gao Y, Ma X, et al. A Bionic Venus Flytrap Soft Microrobot Driven by Multiphysics for Intelligent Transportation[J]. Biomimetics, 2023, 8(5): 429. (SCI, IF: 4.5, JCR Q2, 中科院3区,23年发表)
[7] Wang X, Wang Z. Engineered liver tissue in vitro to mimic liver functions and its biomedical applications[J]. Materials Advances, 2022, 3(10): 4132-4154. (CiteScore Q2, IF: 5,22年发表)
[8] Wang X, Wang Z, Yu C, et al. Advances in precise single cell capture for analysis and biological applications[J]. Analytical Methods, 14.32 (2022): 3047-3063. (SCI, IF: 3.532, JCR Q1, 中科院3区,22年发表)
[9] Wang X, Wang Z, Zhai W, et al. Engineering biological tissues from the bottom-up: Recent advances and future prospects[J]. Micromachines, 2021, 13(1): 75. (SCI, IF: 3.523, JCR Q2, 中科院3区,21年发表)
[10] Wang X, Yang W, Ge Z. A bionic mimosa soft robot composed by PNIPAM-PEGDA copolymer[C]//2023 WRC Symposium on Advanced Robotics and Automation (WRC SARA). IEEE, 2023: 194-199. (EI,23年发表)
[11] Wang X, Wang W, et al. Programmable Multi-Stimulus-Responsive Whirligig Beetle Inspired Microrobot and its Multifunctional Applications[J]. Available at SSRN 4385771. (SCI, IF: 4.9, JCR Q2, 中科院2区,24年发表)
[12] Wang X, Teng X, et al. A bionic mimosa soft robot based on a multi-responsive PNIPAM-PEGDA hydrogel composition[J]. Biomicrofluidics, 2024, 18(3).(SCI, IF: 2.6, JCR Q2,中科院4区,24年发表)
[13] Gao Y, Wang X, Chen Y. Light-driven soft microrobots based on hydrogels and LCEs: development and prospects[J]. RSC advances, 2024, 14(20): 14278-14288.
[14] Yang W, Wang Z, Wang X, et al. Bio-inspired propeller robot with controllable pitch driven by magnetic and optical coupling field[J]. Sensors and Actuators B: Chemical, 2023, 382: 133509. (SCI, IF: 8.4, JCR Q1, 中科院1区 Top,23年发表)
[15] Wang Z, Shi D, Wang X, et al. A Multifunctional Light-Driven Swimming Soft Robot for Various Application Scenarios[J]. International Journal of Molecular Sciences, 2022, 23(17): 9609. (SCI, IF: 5.6, JCR Q1, 中科院2区Top,22年发表)
[16] Yang W, Wang Z, Wang X, et al. 3D printing of bioinspired hydrogel microstructures with programmable and complex shape deformations based on a digital micro-mirror device[J]. Optics & Laser Technology, 2023, 157: 108759. (SCI, IF: 5, JCR Q1, 中科院2区,23年发表)
[17] Wang Z, Wang X, Yang W. A light-driven swimming micro-fish based on photo-responsive hydrogel[C]//2022 12th International Conference on CYBER Technology in Automation, Control, and Intelligent Systems (CYBER). IEEE, 2022: 1066-1071. (EI,22年发表)
3、获奖情况
2024年智慧团建优秀共青团员、2023年智慧团建优秀共青团员
2023年国家奖学金(前1%)
2023年烟台大学研究生重点科创基金(前1%)
2023年山东省研究生创新成果奖
2023年省级优秀学生
2023年校级优秀毕业生
2023年优秀研究生、 2022年优秀研究生
2023年优秀共青团员、2022年优秀共青团员
2022年研究生一等学业奖学金(10%)
2022年正海创新英才社会奖学金(1%)