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吴德志

姓名:吴德志

职称/职务:教授

研究方向:微纳制造;柔性电子;传感器技术等

办公地点:航空航天大楼219

邮箱:wdz@xmu.edu.cn

教育背景

1996-2003 武汉理工大学机械电子工程获工学学士、硕士学位

2005-2009 厦门大学测试计量技术及仪器获工学博士学位

2015-2016 University of California at Berkeley,访问学者

教学工作

主要讲授过《有限元分析》、《自动控制原理》、《机械设计基础》和《计算机辅助设计》

研究领域

主要研究微纳制造与装备、柔性电子(传感)、智能软体机器人、湿度传感器和MEMS/NEMS

科研项目

1.国家自然科学基金面上项目,微包轴电液喷印制造基础研究,2021-2024

2.国家自然科学基金重大研究计划,石墨烯电子皮肤模态干涉多维度抑制,2017-2019

3.国家自然科学基金,蘸取预制泰勒锥的纳米纤维高产电纺制造基础研究,2013-2015

4.国家重点研发课题,压力场测量关键技术,2021-2024

5.“十三五”基金项目,柔性触觉柔性感知,2019-2021

6.中央引导地方科技发展专项,智能软体机械手爪关键技术研究, 2021-2022

7.市科技计划项目,医疗健康传感器关键技术, 2019-2021

8.重点实验室项目,异构微结构阵列韦森堡电液喷印行为与调控,2022-2024

9.企业委托项目,电力设备MEMS湿度传感器关键技术,2022-2023

10.企业委托项目,储能多参数传感关键技术,2021-2022

11.企业委托项目,传感器工艺与测试技术开发,2021

12.省级科学基金,器件与金属基底微区感应加热键合技术研究,2018-2020

近期发表文章

已在Additive manufacturingACS AMINanoscaleSensors and Actuators A: PhysicalComposites part bEngineeringJournal of Physics DApplied PhysicsJournal of Power SourceNanotechnology、《机械工程学报》和《中国机械工程》等国内外刊物上发表论文90多篇。

主要论文

1. Jiawei Lin, Shaofei Wang*, Dezhi Wu*, et al. Temperature-Immune, Wide-Range Flexible Robust Pressure Sensors for Harsh Environments. ACS Applied Materials Interfaces, 2023

2. Bin Zhu, Dezhi Wu*, et al., High-linearity flexible pressure sensor based on Gaussian-curve-shaped microstructure for human physiological signal monitoring, ACS Sensors, 2023.

3. Yigen Wu, Dezhi Wu*, et al., A stretchable all-nanofiber iontronic pressure sensor, soft science, 2023

4. Dongyan Zhao, Dezhi Wu*, et al., A Review of methods for measuring water content in oil. Measurement, 2023

5. Hang Yu, Dezhi Wu*, et al., One-Step Fabrication of High-Performance Graphene Composites from Graphite Solution for Bio-Scaffolds and flexible Strain Sensors, Nanotechnology, 2023

6. Zhiwen Chen, Dezhi Wu*, et al., Fabrication of Flexible Organic Field Effect Transistors with High Carrier Mobility via Sheath Gas-assisted Printing, Organic Electronics. 2023.

7. Zhiwen Chen, Dezhi Wu*, et al., Detection of jelly roll pressure evolution in large-format Li-ion batteries via in situ thin film flexible pressure sensors. Journal of Power Sources, 2023.

8. Yigen Wu, Dezhi Wu*, et al., Direct-writing of liquid metal onto an electrospun graphene oxide composite polymer nanofibers membrane for robust and stretchable electrodes, Advanced Materials Technologies. 2023

9. Yang Zhang, Dezhi Wu*, et al., An anisotropic dielectric elastomer actuator with an oriented electrospun nanofiber composite film, Advanced Materials Technologies. 2023

10. Zhongbao Wang, Dezhi Wu*, et al., Self-patterning of highly stretchable and electrically conductive liquid metal conductors by direct-write super-hydrophilic laser-induced graphene and electroless copper plating, ACS Applied Materials & Interfaces, 2023

11. Zhenjin Xu, Dezhi Wu*, et al. A Flexible Pressure Sensor with highly Customizable Sensitivity and Linearity via Positive Design of Microhierarchical Structures with a hyper elastic Model, Microsystems and Nanoengineering (Nuture group). 2023

12. Yigen Wu, Dezhi Wu*, et al. A bioinspired multi-knuckle dexterous pneumatic soft finger, Sensors and Actuators A, 2023

13. Wang Zhongbao, Wu Dezhi*, et al. A magnetic soft robot with multimodal sensing capability by multimaterial direct ink printing. Additive Manufacturing. 2023.

14. Yigen Wu, Dezhi Wu*. Printing of tactile sensors upon the surface of pneumatic soft gripper by direct writing and electrospraying to enable intelligent grasping. Advanced Engineering Materials, 2022

15. Dezhi Wu, et al. A Flexible Capacitive Force Sensor with Electrospun Polyimide/Graphene Oxide Composite Nanofiber Membranes for Three-Dimensional Tactile Perception, Nanotechnology, 2022

16. Zhuo Chen, Liwei Lin*, Dezhi Wu*, et al. Laser sculptured hierarchical spinous structures for ultra-high sensitivity iontronic sensors with broad operation ranges. ACS Applied Materials & Interfaces, 2022

17. Yigen Wu, Dezhi Wu, et al. Printing of tactile sensors upon the surface of pneumatic soft gripper by direct writing and electrospraying to enable intelligent grasping. Advanced Engineering Materials, 2022.

18. Zhongbao Wang, Dezhi Wu, et al, Design, fabrication and application of magnetically actuated micro/nanorobots: A review. Nanotechnology. 2022.

19. Zhongbao Wang, Dezhi Wu, Liwei Lin, et al. Soft magnetic composites for highly deformable actuators by four dimensional electrohydrodynamic printing. Composite Part b, 2022.

授权发明专利


近五年授权

1.射流定点诱发的电纺装置,ZL201410628676.5

2.一种导电加热透明电极的制造方法,ZL201710110236.4

3.一种激光诱导沉积制造图案化石墨烯的装置,ZL201710245590.8

4.一种可多材料自动实时混合电纺直写装置,ZL201710288108.9.

5.一种高效纳米纤维纺丝装置,ZL2017114859211.

6.一种高灵敏度的电容式滑触觉传感器,ZL 2019101566796.

7. 一种用于生理信息传感的柔性基材及其制造方法

近五年申请

1.一种激光直写的柔性线路制造装置及制造方法

2.一种柔性压力传感器及制造方法

3.灵敏度可调的高线性度柔性压力传感器及其制备方法

4.一种多自由度软体打印装置

5.一种基于液态金属的柔性导线及其制造方法