Naturally sourced hydrogels: emerging fundamental materials for next-generation healthcare sensing
The flourishing development of flexible healthcare sensing systems is inseparable from the
fundamental materials with application-oriented mechanical and electrical properties …
fundamental materials with application-oriented mechanical and electrical properties …
Recent progress in essential functions of soft electronic skin
Inspired by the human skin, electronic skins (e‐skins) composed of various flexible sensors,
such as strain sensor, pressure sensor, shear force sensor, temperature sensor, and humility …
such as strain sensor, pressure sensor, shear force sensor, temperature sensor, and humility …
A self-healing electrically conductive organogel composite
Self-healing hydrogels use spontaneous intermolecular forces to recover from physical
damage caused by extreme strain, pressure or tearing. Such materials are of potential use in …
damage caused by extreme strain, pressure or tearing. Such materials are of potential use in …
Peptide-enhanced tough, resilient and adhesive eutectogels for highly reliable strain/pressure sensing under extreme conditions
Y Zhang, Y Wang, Y Guan, Y Zhang - Nature Communications, 2022 - nature.com
Natural gels and biomimetic hydrogel materials have been able to achieve outstanding
integrated mechanical properties due to the gain of natural biological structures. However …
integrated mechanical properties due to the gain of natural biological structures. However …
Recyclable, healable, and tough ionogels insensitive to crack propagation
W Li, L Li, S Zheng, Z Liu, X Zou, Z Sun… - Advanced …, 2022 - Wiley Online Library
Most gels and elastomers introduce sacrificial bonds in the covalent network to dissipate
energy. However, long‐term cyclic loading caused irreversible fatigue damage and crack …
energy. However, long‐term cyclic loading caused irreversible fatigue damage and crack …
Cellulose nanofibrils enhanced, strong, stretchable, freezing‐tolerant ionic conductive organohydrogel for multi‐functional sensors
To date, ionic conducting hydrogel attracts tremendous attention as an alternative to the
conventional rigid metallic conductors in fabricating flexible devices, owing to their intrinsic …
conventional rigid metallic conductors in fabricating flexible devices, owing to their intrinsic …
Bioinspired Self‐healing Soft Electronics
Inspired by nature, various self‐healing materials that can recover their physical properties
after external damage have been developed. Recently, self‐healing materials have been …
after external damage have been developed. Recently, self‐healing materials have been …
Trehalose-enhanced ionic conductive hydrogels with extreme stretchability, self-adhesive and anti-freezing abilities for both flexible strain sensor and all-solid-state …
H Cai, D Zhang, H Zhang, M Tang, Z Xu, H ** vigorously as superior wearable sensing materials due to
their intrinsic conductivity, softness, stretchability, and biocompatibility, showing a great …
their intrinsic conductivity, softness, stretchability, and biocompatibility, showing a great …
Self-healing, self-adhesive silk fibroin conductive hydrogel as a flexible strain sensor
H Zheng, N Lin, Y He, B Zuo - ACS Applied Materials & Interfaces, 2021 - ACS Publications
Flexible and wearable hydrogel strain sensors have attracted tremendous attention for
applications in human motion and physiological signal monitoring. However, it is still a great …
applications in human motion and physiological signal monitoring. However, it is still a great …