Journal ArticleUnknown
Dynamic Coordination of Hydrogen-Rich Bonds Drives Multifunctional Conductive Hydrogels for High-Performance Wearable Sensors
Authors
Yue Li, Lili Hao, Ying Tang, Danyang Wang, …
Author Affiliations
Ministry of Education, Ingenierie des Materiaux polymeres, Northwest Normal University
Published InACS Applied Polymer Materials
Year2025
Citations3
Abstract
Despite the progress in hydrogel-based sensors, balancing mechanical resilience, environmental tolerance, and sensing precision remains challenging. Here, we report a multifunctional conductive hydrogel, SL-P(HEA-co-AA), synthesized via dynamic coordination between sodium lignosulfonate (SL), Ni ions, and copolymer networks in a glycerol/water binary solvent. The synergistic hydrogen bonding and reversible −COOH–Ni2+ coordination endows the hydrogel with exceptional stretchability (strain up to 1100%), rapid self-healing (64% recovery within 12 h), and robust adhesion to various substrates. In addition, the hydrogel exhibits antifreezing (−62 °C) and antidehydration (89.8% moisture retention after 7 days) properties, ensuring stability in harsh environments. As a strain sensor, it demonstrates high sensitivity (gauge factor = 5.17), ultrafast response/recovery (0.6/0.8 s), and durability (>14 days). Practical applications include real-time monitoring…
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