研究方向简介

新型力-电耦合效应在国家重大需求中的应用

  • 关键航天器件国产化探索
  • 高精度作动材料研究及其航天应用
  • 高精度力学量传感研究及其航天应用

类压电效应研究

  • 介电材料的巨大挠曲电效应及其力电耦合调控
  • 液体材料挠曲电效应、力电耦合效应及其实验研究方法
  • 可拉伸驻极体材料研发及其力电耦合效应研究

期刊论文

没有找到条目。
论文标题 作者 发表/完成日期 期刊名称
Shear flexoelectricity of alcoholic liquids with low viscosity Shuwen Zhang, Hui Ji, Kaiyuan Liu, Yifan Li, Minglong Xu* 2023-07-14 Journal of Physics D: Applied Physics
Flexoelectricity at fractal rough surfaces Chongpu Zhai, Shuwen Zhang, Hui Ji, Deheng Wei, Hengxu Song, Kaiyuan Liu, Minglong Xu 2023-03-05 Extreme Mechanics Letters
Displacement sensing with quasi-zero stiffness structure and flexoelectricity Haoyu Gu, Hui Ji, Shuwen Zhang, Chongpu Zhai*, and Minglong Xu* 2023-02-09 Smart Materials and Structures
Flexoelectric enhanced film for an ultrahigh tunable piezoelectric-like effect Hui Ji#,Shuwen Zhang#*, Kaiyuan Liu, Tonghui Wu, Shuaijun Li, Hao Shen, Minglong Xu* 2022-12-01 Materials Horizons
Chemical sensing by interfacial voltage Yecheng Wang#, Shuwen Zhang#, Yang Bai, Kun Jia, Zhigang Suo 2022-11-16 Cell Reports Physical Science
Mechanical design of uniform stain-gradient schemes for transverse and longitude flexoelectricity Kaiyuan Liu, Hui Ji, Tonghui Wu, Shengping Shen, Shuwen Zhang*, Minglong Xu* 2022-03-01 International Journal of Solids and Structures
Quantitative evaluation of energy harvesting capability of flexoelectric and piezoelectric materials Shuwen Zhang, Chongpu Zhai, Kaiyuan Liu, Siyang Song, Hui Ji, Shubao Shao, Minglong Xu* 2022-02-10 Journal of Applied Physics
Measuring cohesive energy of van der Waals heterostructures by nanoparticle intercalation method Liqun Lou, Peijian Chen, Chunping Xiang, Juan Peng, Shuwen Zhang 2022-02-01 Mechanics of Materials
Ionotronic thermometry Yecheng Wang, Kun Jia, Shuwen Zhang, Hyeong Jun Kim, Yang Bai, Ryan C. Hayward* and Zhigang Suo* 2022-01-25 Proceedings of the National Academy of Sciences of the United States of America PNAS
Giant flexoelectric response via mechanical and material design in elastomers Hui Ji, Shubao Shao, Kaiyuan Liu, Tonghui Wu, Shengping Shen, Shuwen Zhang*, Minglong Xu* 2021-12-10 Mechanics of Materials
Design and modeling of decoupled miniature fast steering mirror with ultrahigh precision Wenwen Han, Shubao Shao, Shuwen Zhang, Zheng Tian, Minglong Xu* 2021-10-15 Mechanical Systems and Signal Processing
An enhanced flexoelectric dielectric elastomer actuator with stretchable electret Shuwen Zhang, Shubao Shao, Xuxu Yang, Peijian Chen, Hui Ji, Kaiyuan Liu, Tonghui Wu, Shengping Shen, and Minglong Xu* 2021-09-14 Smart Materials and Structures
Mechanical tunability of flexoelectricity in elastomers Hui Ji, Shubao Shao, Kaiyuan Liu, Hongxing Shang, Yuanwei Zhu, Tonghui Wu, Shengping Shen, Shuwen Zhang*, Minglong Xu* 2021-09-07 Applied Physics Letters
Flexoelectricity in non-oriented liquids Zhang SW, Liu KY, Ji H, Wu TH, Xu ML, Shen SP 2020-11-20 Journal of Physics D: Applied Physics
Tunable Flexoelectricity of Elastomers Zhang SW, Liu KY, Ji H, Wu TH, Xu ML*, Shen SP 2020-10-22 Journal of Physical Chemistry
Diversity of transverse flexoelectricity in nonpoled polyvinylidene fluoride Zhang SW, Liu KY, Ji H, Wu TH, Shen SP 2020-10-14 Journal of Applied Physics
Cohesive energy measurement of van der Waals heterostructures by the shaft loaded blister test Lou LQ, Chen PJ, Wang ZJ, Zhang SW, Gao F 2020-09-21 Extreme Mechanics Letters
Stretchable Electrets: Nanoparticle–Elastomer Composites Zhang SW, Wang YC, Yao X, Le Floch P, Yang XX, Liu J, and Suo ZG* 2020-05-15 Nano Letters
Flexoelectricity in pyramid compression: decoupling from effective to intrinsic Ji H, Zhang SW, Liu KY, Wu TH, Xu ML, and Shen SP 2020-02-01 Journal of Physics D: applied Physics
Fundamental limits to the electrochemical impedance stability of dielectric elastomers in bioelectronics Paul LF, Nicola M, Nan KW, Zhang SW, Kozinsky B, Suo ZG*, Liu J* 2020-01-01 Nano Letters

论文准备/投稿/审稿

1. Shuwen Zhang, Yifan Li, Hui Ji, Kaiyuan Liu, Minglong Xu*, major revision. 
2. Yifan Li, Shuwen Zhang, Kaiyuan Liu, Minglong Xu*, to be submitted.
3. Shuwen Zhang, Yifan Li, Hui Ji, Kaiyuan Liu, Minglong Xu*, to be submitted.
4. Zheng Tian, Yifan Li, Shuwen Zhang, Siyang Song, Minglong Xu*, under review.
5. Wenwen Han, Chongpu Zhai, Zheng Tian, Shuwen Zhang*, Minglong Xu*, uner review.
6. Yang Fang, Shuwen Zhang*, Minglong Xu*, to be submitted.
7. Zheng Tian, Yifan Li, Shuwen Zhang, Minglong Xu*, to be submitted.
8. Shuwen Zhang, Yanyu Li, Yifan Li, Haoyu Gu, Minglong Xu, to be submitted.
9. Yanyu Li, Shuwen Zhang, Yifan Li, Minglong Xu*, to be submitted.
10. Shuwen Zhang, Yan Shao, Yifan Li, Kaiyuan Liu, Minglong Xu*, to be submitted.
11. Shuwen Zhang, Wenwen Han, Yifan Li, Kaiyuan Liu, Minglong Xu*, to be submitted.
12. Shuwen Zhang#, Yifan Li#, Hui Ji, Kaiyuan Liu, Minglong Xu*, to be submitted.
13. Yifan Li#, Shuwen Zhang#,  Yanyu Li, Kaiyuan Liu, Chongpu Zhai*, Minglong Xu*, to be submitted.
14. Shuwen Zhang, Yifan Li, Haoyu Gu, Minglong Xu*, to be submitted.

发明专利

没有找到条目。
专利名称 申请号 专利类型 申请日期
一种利用弹性模量梯度和复合驻极弹性体的摆动式作动器 ZL202110626813.1 发明 2020.06.05
具有拉压双向输出的驻极体复合材料单电极作动器及方法 ZL201910580784.2 发明 2020.05.19
一种基于金属-离子液体界面电势差的信息存储和读取系统 ZL201911057907.0 发明 2019.11.01
一种基于金属-离子界面电势差的信息存储和读取系统 ZL201911057907.0 发明 2019.11.01
一种基于双弧形逆挠曲电作动部件的二维精密作动平台及方法 ZL201810444237.7 发明 2019.08.13
基于逆挠曲电原理的攀爬型步进式作动器及作动方法 ZL201810443624.9 发明 2019.08.09
基于挠曲电原理具有自检测功能的传输管道 ZL201810444259.3 发明 2019.07.23
基于逆挠曲电原理的柔性材料往复式多层结构超大变形作动器及方法 ZL201810442758.9 发明 2019.07.02
基于逆挠曲电原理的步进式旋转作动器及作动方法 ZL201810444249.X 发明 2019.06.14
一种基于逆挠曲电原理的梳齿式角位移步进作动器及作动方法 ZL201810444246.6 发明 2019.05.21
一种转动中心与镜面中心重合的偏转反射镜装置及方法 ZL201611230843.6 发明 2019.02.26
通过变截面结构获得剪切向挠曲电系数的测量装置及方法 ZL201511016365.4 发明 2018.11.09
通过扭转半圆柱结构测量剪切向挠曲电系数的装置及方法 ZL201511016535.9 发明 2018.10.23
通过蛇形位移放大结构测量逆挠曲电系数的装置及方法 ZL201511016532.5 发明 2018.10.19
一种基于挠曲电效应的高g值加速度传感器及测量方法 ZL201511016756.6 发明 2018.10.19
钳位驱动一体化的压电驱动高精度旋转作动装置及方法 ZL 201710234407.4 发明 2018.08.07
一种基于电容变化获得逆挠曲电系数的测量装置及方法 ZL201511016462.3 发明 2018.07.27
一种利用倾角变化和导电液体测量超长周期的传感器 ZL201610221587.8 发明 2018.07.27
通过螺旋位移放大结构测量逆挠曲电系数的装置及方法 ZL201511017022.X 发明 2018.07.03
一种基于挠曲电效应的流速变化率的传感结构和测量方法 ZL201510429040.2 发明 2018.04.17