材料科学
能量收集
表面工程
电压
基质(水族馆)
纳米技术
涂层
灵活性(工程)
聚电解质
光电子学
功率密度
碳纳米管
超级电容器
工程物理
储能
驻极体
电荷(物理)
工作(物理)
电气工程
电荷密度
聚电解质吸附
航程(航空)
表面电荷
功率(物理)
电势能
电场
发电机(电路理论)
电容器
可穿戴技术
聚合物
表面改性
聚合物基片
电
摩擦电效应
电力
静电学
电位
作者
Xian Wen,Zhaoyang Sun,Min Soo Kim,Yujang Cho,Han Wang,Jing Yin,Lu Zhang,Il‐Kwon Oh,Liming Wang,Il‐Doo Kim,Xiaohong Qin
标识
DOI:10.1002/adfm.202511843
摘要
ABSTRACT The emerging moisture‐induced energy harvesting technology is promising green power source for a wide range of internet‐of‐things and next‐generation wearable electronics. However, significant challenges remain, including intermittent electric output, bulky integration requirements, and low conformality, inevitably hindering their practical applications. Here, we present a flexible moisture‐induced generator (MEG) fabricated by surface charge engineering via bilateral coating of hygroscopic salt‐loaded polymer and polyelectrolyte on carbon nanotubes. This surface engineering effectively utilizes the ion selectivity of polyelectrolytes and the adsorption characteristics of carbon nanotubes to establish an in‐plane surface charge difference in the device, achieving a sustained voltage of 0.3 V and a short‐circuit current output of 27.5 µA, along with a power density up to 52.5 W m −3 for a single device. Thanks to the lightweight integration potential and wide substrate adaptability, fifty units connected in series deliver a voltage output of ∼11 V at only 1.34 g, sufficient to charge a smartwatch. The flexibility of the device allows it to conform to various surfaces, with a palm‐sized box containing twenty‐five devices generating 5.5 V to power a calculator. This work provides a brand‐new blueprint for global water energy harvesting and applications.
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