材料科学
离子键合
功率密度
电极
热电材料
塞贝克系数
热电效应
纳米技术
开路电压
电压
最大功率原理
能量收集
内阻
纳米线
功率(物理)
储能
光电子学
能量转换
机械能
氧化还原
电流密度
电化学
化学工程
工作(物理)
水溶液
电化学电池
热电发电机
作者
Chunxia Xie,Yongbin Zhu,Jiawei Chen,Minqi Chen,Shengjie Liu,Tianren Liu,ZhenBang Liu,Yu Bao,Yingming Ma,Cheng-Gong Han,Li Niu
出处
期刊:eScience
[Elsevier BV]
日期:2026-02-01
卷期号:: 100550-100550
标识
DOI:10.1016/j.esci.2026.100550
摘要
Ionic thermoelectric (i-TE) gel devices can directly convert low-grade heat into electricity, especially for use in self-powered wearable electronics. However, i-TE gel devices exhibit weak contact with curved human skin during frequent joint movements, resulting in reduced i-TE performance. Here, we demonstrate a fully flexible and in-plane stretchable gel device that integrates n-type and p-type i-TE gel cells connected in series, using Au-coated silver nanowire electrodes AgNWs@Au/PDMS. The p-type i-TE gel, PAA-{Mo 132 }-Ti 3 C 2 T x , employs high-nuclearity molybdenum-oxo clusters {Mo 132 } as new redox couple. This p-type i-TE gel cell demonstrates an ionic thermopower of 30.3 mV K −1 , a normalized maximum power density of 3.1 mW m −2 K −2 , and 13% relative resistance retention after 1000 stretching cycles at 50% strain, enabling continuous folding/twisting deformations inaccessible to conventional ones. In addition, a gel device assembled from eight pairs of n-type (MAA-I − / -KCl) and p-type i-TE gel cells maintains 92% power density at 25% strain, delivers an open-circuit voltage of 3.9 V, and achieves a maximum power of 98 μW under 2500 W m −2 illumination. This work advances ionic thermoelectrics toward truly wearable, bendable devices by establishing a co-design of flexible electrodes and i-TE gels, providing an effective guideline for other fully flexible energy gel devices. • Aqueous S i of 1.7 mV K −1 was shown for a new p-type redox couple {Mo 132 } α−1/α . • A concept of fully flexible, in-plane stretchable i-TE gel cell/device was proposed using AgNWs@Au/PDMS electrodes. • It delivered a S i of 30 mV K −1 and a P max /(Δ T ) 2 of 3.1 mW m −2 K −2 at 50% strain. • A n-p type i-TE gel device showed voltage of 3.9 V and P max of 98 μW at 2500 W m −2 .
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