| | Research
(1) Flexible electronics and their corresponding deformation and pressure feedback system
(2) Mechanical metamaterials with tunable thermal-mechanical properties
(3) Mechanical structures with shape-changing property
We are interested in developing design strategies for advanced materials and structures with tunable properties, including metamaterials with tunable thermal expansion, 3D structures that can switch their configurations actively under the external stimulus, flexible/stretchable sensors, and their corresponding shape and pressure feedback system.
| | Overview
| | News
2024/12: Our paper "Mechanical design and high-fidelity analysis of the metastructure with ultra-low thermal warping" has been accepted by Aerospace Science and Technology.Congratulation to Xiaonan.
2024/12: Our paper "Electrothermally actuated lattice metamaterials with remarkable shear deformation. Thin-wall Structure" has been accepted by Thin-wall Structure. Congratulation to Kai.
2024/10: Our paper "Electrothermally actuated network metamaterials with reconfigurable bending deformation modes" has been accepted by Extreme Mechanics Letters.Congratulation to Kai.
2024/05: Our paper "The metamaterial with high thermal-mechanical stability and the practical application as the microwave antenna: Mechanical designs, theoretical predictions, and experimental demonstrations" has been accepted by Extreme Mechanics Letters.Congratulation to Huabin.
2024/01:Our paper "Honeycomb structure filling morphing wing trailing edge: Design strategy, deformation feedback, and active control" has been accepted by Programmable Materials. Congratulation to Xuyang.
2023/11: Our paper " Somatosensory Electro-Thermal Actuator through the Laser-Induced Graphene Technology " has been accepted by Small. Congratulation to Hao and Xuyang.
