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Physically Cross-Linked Biopolymer-Based Strong and Stretchable Organohydrogel with Self-Healing and Biocompatibility for Environmentally Tolerant Strain Sensors

材料科学 生物相容性 极限抗拉强度 拉伤 标度系数 复合材料 纳米技术 可穿戴计算机 明胶 可穿戴技术 离子键合 自愈 拉伸试验 应变计 拉伸应变 生物医学工程 离子强度
作者
Wenhao Cai,Lingyun Chen
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:18 (13): 18854-18868
标识
DOI:10.1021/acsami.6c01936
摘要

The development of wearable strain sensors increasingly focuses on multifunctional materials that integrate mechanical robustness, self-repairing capacity, temperature-resilient conductivity, and biocompatibility. Herein, we developed a physically cross-linked biopolymer-based organohydrogel by incorporating gelatin (Gel) and β-cyclodextrin-grafted chitosan (CDCS), designated as Gel/CDCS, reinforced through hydrogen bonding, ionic interactions, and host-guest complexation. The optimized Gel/CDCS1 organohydrogel with 1% of CDCS exhibited outstanding stretchability, with a tensile strain at break of 410.9% and a tensile strength of 92.2 kPa, while maintaining 85% of its mechanical properties after self-healing at 40 °C. The introduction of kosmotropic salts (Na3Cit and NaCl) and a glycerol-water binary solvent system conferred remarkable environmental adaptability, allowing stable performance from -20 to 37 °C. Notably, it achieved a high ionic conductivity of 0.946 S m-1 at room temperature, alongside 0.606 S m-1 at -20 °C and 0.330 S m-1 at 37 °C, ensuring operation under extreme conditions. The strain sensor displayed high sensitivity with a gauge factor (GF) increasing from 1.06 to 1.34 over a broad strain range and maintained a stable electrical response over 600 consecutive stretching cycles. Additionally, it enabled reliable detection of diverse human motions, including facial expressions, joint bending, and breathing, demonstrating excellent conformability and signal stability during on-body monitoring. Additionally, Gel/CDCS1 exhibited excellent biodegradability, degrading by over 80% in soil within 4 days, and showed high biocompatibility with fibroblast viability of around 80%. These attributes establish Gel/CDCS1 as a promising eco-friendly candidate for next-generation flexible electronics, wearable strain sensors, and biomedical applications.
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