Affiliation:
1. Hunan Key Laboratory for the Design and Application of Actinide Complexes School of Chemistry and Chemical Engineering University of South China Hengyang Hunan 421001 P. R. China
2. MOE Key Laboratory of Low‐grade Energy Utilization Technologies and Systems CQU‐NUS Renewable Energy Materials and Devices Joint Laboratory School of Energy and Power Engineering Chongqing University Chongqing 400044 P. R. China
Abstract
AbstractConstructing concentration differences between anions and cations at the ends of an ionic conductor is an effective strategy in electricity generation for powering wearable devices. Temperature gradient or salinity gradient is the driving force behind such devices. But their corresponding power generation devices are greatly limited in actual application due to their complex structure and harsh application conditions. In this study, a novel ionic concentration gradient electric generator based on the evaporation difference of the electrolyte is proposed. The device can be constructed without the need for semipermeable membranes, and operation does not need to build a temperature difference. As a demonstration, a PVA–Na ionic hydrogel is prepared as an electrolyte for the device and achieved a thermovoltage of more than 200 mV and an energy density of 77.94 J m−2 at 323 K. Besides, the device exhibits the capability to sustain a continuous voltage output for a duration exceeding 1500 min, as well as enabling charging and discharging cycles for 100 iterations. For practical applications, a module comprising 16 sub‐cells is constructed and successfully utilized to directly power a light‐emitting diode. Wearable devices and their corresponding cell modules are also developed to recycle body heat.
Funder
National Key Research and Development Program of China
National Natural Science Foundation of China
Natural Science Foundation of Hunan Province