热电效应
材料科学
储能
能量转换
热电发电机
工作(物理)
热电材料
电压
能量(信号处理)
工程物理
电势能
开路电压
能量转换效率
光电子学
电气工程
热电冷却
余热
高效能源利用
计算机数据存储
纳米技术
工艺工程
能量密度
工作职能
塞贝克系数
发电
过程集成
作者
Xinrui He,Hailong Sun,Peifeng Yu,Hezhang Li,Zezhan Zhang,Yi Niu,Jing Jiang,Chao Wang
标识
DOI:10.1002/aenm.202502570
摘要
Abstract Thermoelectric devices have garnered significant interest but face limitations due to their reliance on external equipment and relatively low energy density for energy storage. This study introduces an innovative integrated device that achieves both the function of thermoelectric conversion and energy storage within a single unit through a precipitation‐driven Thermogalvanic effect. Strikingly, both the thermoelectric (P max = 3.51 W m −2 ) and electrochemical (E = 459 J m −2 , surpasses the reported highest value by 132%) performances are excellent. Furthermore, a large‐area prototype module comprising 32 units manifests an open circuit voltage of 1.7 V and exhibits an energy density of 463.9 J m −2 . This work provides an innovative and effective approach to the high‐performance recycling system of thermoelectric conversion and energy storage integrated devices.
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