Adhesive, Non-Swelling, and Viscoelastic Hydrogels for BioelectronicsIm Kyung Han, Kang-Il Song, Sang-Mun Jung, Yeonggwon Jo, Jaesub Kwon, Taehun Chung, Surim Yoo, Jinah Jang, Yong-Tae Kim, Dong Soo Hwang, and Youn Soo Kim*I. K. Han, S.-M. Jung, J. Kwon, T. Chung, Y.-T....
Nowadays, hydrogels have been intensively explored due to their promising potential application in bioelectronics. However, the lack of self-healing performance limits the lifespan and stability of materials. Here, a stretchable, self-healing and conductive hydrogel is prepared via physical crosslinking ...
Adhesive hydrogels are attractive biomaterials for various applications, such as electronic skin, wound dressing, and wearable devices. However, fabricating a hydrogel with both adequate adhesiveness and excellent mechanical properties remains a challenge. Inspired by the adhesion mechanism of mussels, we ...
Physically induced detachable (near-infrared (NIR)25, ultraviolet (UV)26, and temperature27) hydrogels can avoid the issues and therefore capture much attention. Among them, temperature-controlled hydrogels are convenient for users because they can be triggered by the human body temperature without ...
Adhesive hydrogels have gained popularity in biomedical applications, however, traditional adhesive hydrogels often exhibit short-term adhesiveness, poor mechanical properties and lack of antibacterial ability. Here, a plant-inspired adhesive hydrogel ha
Superior low-temperature tolerant, self-adhesive and antibacterial hydrogels for wearable sensors and communication devices Hydrogel-based sensors have drawn wide attention in the fields of medical monitoring, electronic skin, human鈥搈achine interfaces, and so forth. So far, although the research on ...
Injectable hydrogels for bioelectronics: A viable alternative to traditional hydrogels 2024, Chemical Engineering Journal Citation Excerpt : While notable progress has been made in the medical realm, there’s growing interest in exploring additional applications of BCI technology. For instance, Hsieh and ...
The self-adhesive properties enable hydrogels to be directly adhered to various materials without requiring external adhesives, which is essential for a number of emerging applications, such as wearable sensors and bioelectronics, although self-adhesive gas sensor has seldom been reported [57]. Hydrogel...
Injectable and adhesive hydrogels for dealing with wounds. The development of wound dressing materials that combine healing properties, ability to self-repair the material damages, skin-friendly adhesive nature, an... P Ghandforoushan,N Golafshan,FB Kadumudi,... - 《Expert Opinion on Biological...
Injectable HA-based materials have previously been used for cell delivery to the corneal stroma [20,26], but these in situ forming hydrogels cannot be used to deliver an intact epithelial layer. Hence, new implant design is essential for efficient transplantation of distinctly compartmentalized cells...