Mussel‐inspired hydrogels for self‐adhesive bioelectronics
Wearable and implantable bioelectronics are receiving a great deal of attention because
they offer huge promise in personalized healthcare. Currently available bioelectronics …
they offer huge promise in personalized healthcare. Currently available bioelectronics …
Self-healing conductive hydrogels: preparation, properties and applications
Conductive hydrogels have generated great interest in biomedical and electrical fields.
However, conventional conductive hydrogels usually lack self-healing properties, which …
However, conventional conductive hydrogels usually lack self-healing properties, which …
Somatosensory actuator based on stretchable conductive photothermally responsive hydrogel
Mimicking biological neuromuscular systems' sensory motion requires the unification of
sensing and actuation in a singular artificial muscle material, which must not only actuate but …
sensing and actuation in a singular artificial muscle material, which must not only actuate but …
Mussel‐inspired adhesive and conductive hydrogel with long‐lasting moisture and extreme temperature tolerance
Conductive hydrogels are a promising class of materials to design bioelectronics for new
technological interfaces with human body, which are required to work for a long‐term or …
technological interfaces with human body, which are required to work for a long‐term or …
Stimuli-responsive conductive nanocomposite hydrogels with high stretchability, self-healing, adhesiveness, and 3D printability for human motion sensing
Self-healing, adhesive conductive hydrogels are of great significance in wearable electronic
devices, flexible printable electronics, and tissue engineering scaffolds. However, designing …
devices, flexible printable electronics, and tissue engineering scaffolds. However, designing …
Multifunctional stimuli-responsive hydrogels with self-healing, high conductivity, and rapid recovery through host–guest interactions
Self-healing hydrogels with multifunctionality as a type of fascinating material show potential
application in various fields, such as biomedicine, tissue engineering, and wearable …
application in various fields, such as biomedicine, tissue engineering, and wearable …
[PDF][PDF] A mussel-inspired conductive, self-adhesive, and self-healable tough hydrogel as cell stimulators and implantable bioelectronics
In addition, self-healability, a fascinating characteristic of the natural tissues, is also a
necessary property of conductive hydrogels, especially for those applied in self-healing …
necessary property of conductive hydrogels, especially for those applied in self-healing …
Nanocomposite hydrogels: 3D polymer–nanoparticle synergies for on-demand drug delivery
Considerable progress in the synthesis and technology of hydrogels makes these materials
attractive structures for designing controlled-release drug delivery systems. In particular, this …
attractive structures for designing controlled-release drug delivery systems. In particular, this …
A highly stretchable liquid metal polymer as reversible transitional insulator and conductor
Materials with a temperature‐controlled reversible electrical transition between insulator and
conductor are attracting huge attention due to their promising applications in many fields …
conductor are attracting huge attention due to their promising applications in many fields …
Conductive “smart” hybrid hydrogels with PNIPAM and nanostructured conductive polymers
Stimuli‐responsive hydrogels with decent electrical properties are a promising class of
polymeric materials for a range of technological applications, such as electrical …
polymeric materials for a range of technological applications, such as electrical …