The outlook and challenges of wearable self-powered hydrogel bioelectronics are proposed. Abstract The current wearable devices are largely rigid and bulky, which calls for the development of next-generation sof
Self-powered bioelectronicsThe current wearable devices are largely rigid and bulky, which calls for the development of next-generation soft biocompatible technologies. Another limitation is that conventional wearable devices are generally powered by thick and non-compliant batteries, hindering the ...
Wearable enzyme-based biosensors enable advanced healthcare diagnostics through the monitoring of biomarkers and physiological states. The integration of materials engineering and enzyme conjugation has established the groundwork for advancements in mode
To create a material system that satisfies all of these criteria, we have selectively combined the LM–hydrogel and partially dehydrated Ag–hydrogel architectures with a recently discovered PVA–Borax formulation37that is non-toxic, biocompatible and exhibits robust self-healing properties. The PVA–Bo...
Ultra-fast cryogenic self-healing ionic hydrogel for flexible wearable bioelectronics Chemical Engineering Journal Volume 495,1 September 2024, Page 153734 Purchase options CorporateFor R&D professionals working in corporate organizations. Academic and personalFor academic or personal use only. ...
Jeerapan, I.; Sempionatto, J. R.; Wang, J. On-body bioelectronics: Wearable biofuel cells for bioenergy harvesting and self-powered biosensing.Adv. Funct. Mater.2020,30, 1906243. ArticleCASGoogle Scholar Nozariasbmarz, A.; Collins, H.; Dsouza, K.; Polash, M. H.; Hosseini, M.; Hyl...
also created hydrogel-based scaffolds composed of PDA-modified GO (PGO) and HAp nanoparticles (PHA) introduced into alginate/gelatin scaffold (PGO-PHA-AG), enhancing periodontal bone regeneration in a diabetic rat model by modulating the inflammatory microenvironment through interrupting glycolytic and ...
In article number 2306350 by Zhikang Li, Yumeng Xue, Libo Zhao, Shiming Zhang, and co-workers, summarize the recent advances in developing self-healing hydrogels for wearable and implantable bioelectronics, and propose the persisting challenges and future prospects....
hydrogel could be effectively used as an adhesive,antibacterial,and implantable bioelectrode to detect bio-signals,and as a wound dressing to accelerate tissue regeneration while preventing infection.Therefore,this study provides a promising approach for the fabrication of adhesive hydrogel bioelectronics ...
can be transmitted to the portable devices wirelessly by the integrated NFC unit. This self-powered multiplexed sensing device is prospective to be equipped on the contact lens and pave the wave of next-generation wearing bioelectronics for the long-term noninvasive in vivo surveillance and ...