Thin-film electronics on active substrates: review of materials, technologies and applications
In the last years, the development of new materials as well as advanced fabrication
techniques have enabled the transformation of electronics from bulky rigid structures into …
techniques have enabled the transformation of electronics from bulky rigid structures into …
Significance of nano-materials, designs consideration and fabrication techniques on performances of strain sensors-A review
Flexible electronics have become fast-growing fields after the discovery of various
nanomaterials especially in the area of flexible strain sensors. High flexibility, stretchability …
nanomaterials especially in the area of flexible strain sensors. High flexibility, stretchability …
Thin‐film‐shaped flexible actuators
Human‐like and creature‐like systems are one of the most representative imaginary
blueprints of future robots. To fulfill this blueprint, the development of high‐performance …
blueprints of future robots. To fulfill this blueprint, the development of high‐performance …
Novel flexible triboelectric nanogenerator based on metallized porous PDMS and parylene C
M Mariello, E Scarpa, L Algieri, F Guido… - Energies, 2020 - mdpi.com
Triboelectric nanogenerators (TENGs) have recently become a powerful technology for
energy harvesting and self-powered sensor networks. One of their main advantages is the …
energy harvesting and self-powered sensor networks. One of their main advantages is the …
One-step of ionic liquid-assisted stabilization and dispersion: Exfoliated graphene and its applications in stimuli-responsive conductive hydrogels based on chitosan
X Zhang, H Zhang, X Lv, T Xie, J Chen, D Fang… - International Journal of …, 2024 - Elsevier
Conductive hydrogels, as novel flexible biosensors, have demonstrated significant potential
in areas such as soft robotics, electronic devices, and wearable technology. Graphene is a …
in areas such as soft robotics, electronic devices, and wearable technology. Graphene is a …
A Locally Actuatable Soft Robotic Film for Actively Reconfiguring Shapes of Flexible Electronics
Actively reconfigurable flexible electronics enabled by robotic technologies would provide
opportunities to extensively broaden the application areas of flexible electronics compared …
opportunities to extensively broaden the application areas of flexible electronics compared …
A Review of Somatic Design for Soft Robotic Grippers: From Parts Integration to Functional Synergy
Z Xu, P Shi, J Yan, J Zhao - Advanced Intelligent Systems, 2024 - Wiley Online Library
Somatic design is crucial for soft grippers to emulate the embodied intelligence of their
biological counterparts, due to the blurry boundaries among material, structure, and function …
biological counterparts, due to the blurry boundaries among material, structure, and function …
Hexahedral LED arrays with row and column control lines formed by selective liquid‐phase plasticization and nondisruptive tucking‐based origami
Origami/kirigami of flexible electronics is a promising way to produce 3D electronics
because well‐developed silicon‐based technologies can be used for the planar circuitry …
because well‐developed silicon‐based technologies can be used for the planar circuitry …
Automatic Transformation of Membrane‐Type Electronic Devices into Complex 3D Structures via Extrusion Shear Printing and Thermal Relaxation of Acrylonitrile …
This work demonstrates a means of automatic transformation from planar electronic devices
to desirable 3D forms. The method uses a spatially designed thermoplastic framework …
to desirable 3D forms. The method uses a spatially designed thermoplastic framework …
Flexible lead-free Na0.5Bi0.5TiO3-based film capacitor with stable energy storage performances
The important application potential of flexible energy storage materials in new portable and
wearable electronic devices has aroused a research upsurge in performance optimization …
wearable electronic devices has aroused a research upsurge in performance optimization …