Advanced Stretchable Aerogels and Foams for Flexible Electronics and Beyond

With the increasing demands for artificial intelligence, robotics, electronic skin, healthcare, and energy storage/conversion, the research focus on flexible electronics has started to shift from being merely bendable and rollable to being stretchable. In recent years, stretchable aerogels and foams...

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Bibliographic Details
Published in:Advanced functional materials 2024-11, Vol.34 (48), p.n/a
Main Authors: Liang, Xing, Sun, Qi, Zhang, Xiaoyu, Hu, Zhenyu, Liu, Muxiang, Gu, Puzhong, Yang, Xiao, Zu, Guoqing
Format: Article
Language:English
Subjects:
aerogel
Aerogels
Artificial intelligence
Biosensors
Chemical sensors
Electromagnetic shielding
Electronics
Flexible components
flexible electronics
foam
Foams
Microwave absorption
Nanogenerators
Porous materials
porous structure
Pressure sensors
Robotics
Shape memory
Stretchability
stretchable
Thermal management
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Summary:With the increasing demands for artificial intelligence, robotics, electronic skin, healthcare, and energy storage/conversion, the research focus on flexible electronics has started to shift from being merely bendable and rollable to being stretchable. In recent years, stretchable aerogels and foams have drawn significant attention in the field of flexible electronics due to their unique porous structures, low density, high porosity, and high flexibility. This work provides a comprehensive review of the state‐of‐the‐art developments in stretchable aerogels and foams, encompassing their preparation, structures, properties, and applications. The preparation methods, typical structures of stretchable aerogels and foams, stretching principle, and the relationship between their structures, stretchability, and other properties are investigated. Their latest applications in stretchable strain/pressure sensors, electrodes and conductors, chemical sensors and biosensors, supercapacitors, batteries, triboelectric nanogenerators, electromagnetic shielding, microwave absorption, thermal management, adsorption, separation/filtration, and shape memory are introduced. Furthermore, the challenges and opportunities of stretchable aerogels and foams are summarized. This work provides a guideline for the development of stretchable aerogels and foams and next‐generation high‐performance flexible electronics based on stretchable porous materials. This work provides a comprehensive review of the state‐of‐the‐art developments in stretchable aerogels and foams, including preparation, structures, properties, relationship between structures and properties, and applications in strain/pressure sensors, electrodes/conductors, chemical sensors and biosensors, supercapacitors, batteries, triboelectric nanogenerators, electromagnetic shielding, microwave absorption, thermal management, adsorption/separation/filtration, shape memory, etc. The challenges and opportunities of stretchable aerogels and foams are summarized.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202408707