Ionic hydrogelHyaluronic acidCryogenic self-healingSensorsAnti-freezing and self-healing hydrogels have been developed extensively for their irreplaceable advantages in flexible bioelectronics. However, the self
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. ...
Ren et al., Mus- sel-inspired redox-active and hydrophilic conductive poly- mer nanoparticles for adhesive hydrogel bioelectronics. Nano-Micro Lett. 12, 169 (2020). https://doi.org/10.1007/ s40820-020-00507-0 44. L. Han, X. Lu, K. Liu, K. Wang, L....
Self-healing in the Hec-PAAm hydrogel is based on the re-formation of PAAm polymer entanglements at the interface51. This is corroborated by the control experiment on pristine PAAm hydrogel without hectorite (Supplementary Fig.22), where the PAAm hydrogel reached 92% self-healing after 24 h...
An injectable conductive hydrogel for closed-loop and robot-assisted rehabilitation via stretchable patch-type electrodes Subin Jin Heewon Choi Mikyung Shin Nature Protocols Protocol 19 May 2025 Sections Figures References Abstract Introduction Results Discussion Methods Data availability References Acknowled...
Self-Healing Hydrogels Self-healing is of great significance for improving the durability, reliability, and longevity of hydrogels-based soft bioelectronics. In article number 2306350 by Zhikang Li, Yumeng Xue, Libo Zhao, Shiming Zhang, and co-workers, summarize the recent advances ...
This review offers insights into overcoming these obstacles and discusses future research directions for advancing SH hydrogel-based bioelectronics, aiming to pave the way for durable, high-performance devices in next-generation wearable and implantable technologies....
Self‐healing ferroelectric‐in‐hydrogel networks exhibit a recyclable humidity‐tailored ionic conductivity from 2.86 × 106 to 1.36 × 105 S cm1, facilitating the stretchable piezoelectric sensing. Additionally, the dynamic bond reforming interactions are observed, leading to the tailoring...
Article https://doi.org/10.1038/s41467-025-57692-y Observation of topological hydrogen- bonding domains in physical hydrogel for excellent self-healing and elasticity Received: 15 September 2024 Accepted: 27 February 2025 Check for updates Shaoning Zhang1,2,3, Dayong Ren3, Qiaoyu Zhao4, Min ...
(e.g., Schiff base reactions and boronic ester bonds). The underlying molecular basics of these interactions, hydrogel preparation principles, and corresponding performances and applications are introduced. The underlying reversible intermolecular interaction mechanisms in these hydrogels were investigated ...