研究方向和学术进展简介

1. 介电弹性复合柔性驻极体的压电效应及其应用研究

柔性可拉伸驻极体的研发及其力电耦合效应调控

巨大等效压电效应研究

2. 离-电界面的电荷调控

非法拉第型离子-电子界面的电荷迁移和等效电势变化测量和实验研究方法

研究和发展液体的力电耦合效能

3. 力-电耦合效应关键科学问题研究

介电材料的巨大挠曲电效应及其力电耦合调控

压电陶瓷材料的力学性能提升

4. 服务国家重大需求

关键航天器件国产化研制中的关键科学问题研究

高精度作动器力电耦合过程的研究

高精度大量程力学量传感器研究及其航天应用

 

基于上述力电耦合相关研究,已在Materials Horizons (封面文章), Nano Letters, PNAS等综合类和 Extreme Mechanics Letters, International Journal of Solids and Structures, Mechanics of Materials, Smart Materials and Structure,Measurement Science and Technology等力学类高水平学术杂志发表SCI论文40余篇;获授权发明专利多项,其中已有多项实现了科技成果转化;获人社部“博新计划”支持、陕西省“优秀博士学位论文”荣誉称号、陕西省“高层次人才引进计划青年项目”支持等。

 

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
Electro-adhesion Driven friction enhancement using electret films Shaoqi Huang, Yifan Li, Shuwen Zhang, Hu Zhao, Siyang Song, Chongpu Zhai*, Minglong Xu* 2024-11-24 Extreme Mechanics Letters
Ion identification and ultra-low concentration sensing with liquid flexoelectricity S Zhang#, Y Li#, Y Li, H Ji, X Feng, S Song, K Liu, C Zhai*, M Xu* 2024-11-13 Nano Letters
Piezoelectric-based Large-angle Stroke Fast Steering Mirror with High Ratio of Output Range to Resolution and Self-sensing Capability W Han, C Zhai, S Shao, Z Tian, Q Lu, S Zhang*, M Xu* 2024-08-28 Review of Scientific Instruments
A stretchable and self-powered strain sensor with elastomeric electret Y Li, Y Li, H Gu, C Zhai, S Song, S Zhang*, M Xu* 2024-07-29 Smart Materials and Structures
Enhanced flexoelectricity of liquid with hydrated ions Y Li, Y Li, X Feng, C Zhai, S Zhang* and M Xu* 2024-07-28 Journal of Physics D: Applied Physics
Maintainable displacement regulation of ferroelectric shape memory actuators by controlling stable non-180°domain switching H Gu, K Liu, S Zhang, S Liang, C Zhai, S Shao*, M Xu* 2024-07-16 Sensors and Actuators A: Physical
A mechanical manipulated electromechanical coupling design with stretchable electret film: mechanical sensing, energy harvesting, and actuation Z Tian, Y Li, Y Li, W Han, H Ji, S Zhang*, M Xu* 2024-05-25 Smart Materials and Structures
Shear flexoelectricity of alcoholic liquids with low viscosity S Zhang, H Ji, K Liu, Y Li, M Xu* 2023-07-14 Journal of Physics D: Applied Physics
Flexoelectricity at fractal rough surfaces C Zhai, S Zhang, H Ji, D Wei, H Song, K Liu, M Xu* 2023-03-05 Extreme Mechanics Letters
Displacement sensing with quasi-zero stiffness structure and flexoelectricity H Gu, H Ji, S Zhang, C Zhai*, and M Xu* 2023-02-09 Smart Materials and Structures
Flexoelectric enhanced film for an ultrahigh tunable piezoelectric-like effect H Ji#,S Zhang#*, K Liu, T Wu, S Li, H Shen, M Xu* 2022-12-01 Materials Horizons
Chemical sensing by interfacial voltage Y Wang#, S Zhang#, Y Bai, K Jia*, Z Suo* 2022-11-16 Cell Reports Physical Science
Mechanical design of uniform stain-gradient schemes for transverse and longitude flexoelectricity K Liu, H Ji, T Wu, S Shen, S Zhang*, M Xu* 2022-03-01 International Journal of Solids and Structures
Quantitative evaluation of energy harvesting capability of flexoelectric and piezoelectric materials S Zhang, C Zhai, K Liu, S Song, H Ji, S Shao, M Xu* 2022-02-10 Journal of Applied Physics
Measuring cohesive energy of van der Waals heterostructures by nanoparticle intercalation method L Lou, P Chen, C Xiang, J Peng, S Zhang 2022-02-01 Mechanics of Materials
Ionotronic thermometry Y Wang, K Jia, S Zhang, H J Kim, Y Bai, R C. Hayward*, Z 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 H Ji, S Shao, K Liu, T Wu, S Shen, S Zhang*, M Xu* 2021-12-10 Mechanics of Materials
Design and modeling of decoupled miniature fast steering mirror with ultrahigh precision W Han, S Shao, S Zhang, Z Tian, M Xu* 2021-10-15 Mechanical Systems and Signal Processing
An enhanced flexoelectric dielectric elastomer actuator with stretchable electret S Zhang, S Shao, X Yang, P Chen, H Ji, K Liu, T Wu, S Shen, M Xu* 2021-09-14 Smart Materials and Structures
Mechanical tunability of flexoelectricity in elastomers H Ji, S Shao, K Liu, H Shang, Y Zhu, T Wu, S Shen, S Zhang*, M Xu* 2021-09-07 Applied Physics Letters

论文准备/投稿/审稿

1. Xingjian Feng, et al., Shuwen Zhang*, Minglong Xu*, accepted, 2024.

2. Shaoqi Huang, et al., Shuwen Zhang, Chongpu Zhai*, Minglong Xu*, accepted, 2024.


1. Yifan Li#, Shuwen Zhang#*, et al., Minglong Xu*, under review.

2. Shuwen Zhang, Yanyu Li, Yifan Li, et al., Minglong Xu*, under review.

 


1. Shuwen Zhang, Yifan Li, Hui Ji, Kaiyuan Liu, Minglong Xu*, to be submitted.
2. Shuwen Zhang, Yanyu Li, et al., Minglong Xu*, to be submitted.
3. Shuwen Zhang#, Yifan Li#, et al., Minglong Xu*, to be submitted.

4. Shuwen Zhang, Yifan Li, et al., Minglong Xu*, to be submitted.

5. Haoyu Gu, et al., Shuwen Zhang*, 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