Ion thermoelectric conversion devices for near room temperature

Scientists from Institute of Chemical Engineering, Guangdong Academy of Sciences developed new Solid-state Ionic Thermoelectric Generators
Credit: Schematic diagram of ionic thermoelectric conversion device prepared by Institute of Chemical Engineering, Guangdong Academy of Sciences, China

The electrode sheet of the thermoelectric device consists of ionic hydrogel, which is sandwiched between the electrodes to form, and the Prussian blue on the electrode undergoes a redox reaction to improve the energy density and power density of the ionic thermoelectric generator.

Prof. Zeng Wei of the Institute of Chemical Engineering, Guangdong Academy of Sciences, said that at the beginning, the group mainly carried out research based on the thermal diffusion effect and published a series of research results. In spite of this, their results never realized the expected effect, and the prospect of practical application was not optimistic.

Later, they tried to make a further enhancement on the basis of the thermal current effect, that is, to incorporate the redox reaction of the electrode. The reason for this is that the thermal current effect is redox in the electrolyte, so the gain and loss of electrons mainly occurs in the solution, and the electrons in the electrolyte to migrate to the electrode are not only more difficult, but also need to travel a distance, which will lead to both a lower conversion efficiency and ineffective loss of electrons.

If redox can be achieved directly at the electrodes, that is, if ions are allowed to reach the electrodes and then undergo redox reactions in a thermally induced manner, rather than being driven by an electric current, the distance traveled by the electrons can be very well reduced, resulting in high thermoelectric conversion efficiencies and a significant increase in the time that the thermoelectric device can supply power to the outside world.

“In this work the instantaneous power density reached 3.7 mW/m2K2. In addition, the output energy density was 194 J/m2 for 2 hours at a temperature gradient of 10 K, and the Carnot relative efficiency was as high as 0.12% at a hot-side temperature (TH) of 30°C and a cold-side temperature (TC) of 20°C,” Zeng said.

Therefore, in terms of applications, the device is already capable of continuously powering electronic devices such as wearable electronics and sensors. In addition, the team would like to further broaden the applications, such as using the device for solar photo-thermal power systems and heat recovery outside building walls.

Specifically, the temperature at which sunlight hits a solar panel is usually between 60 and 80 degrees Celsius, which is a few tens of degrees Celsius difference from the real ambient temperature. But if the currently developed thermoelectric device is attached to the back of the solar panel, it can further convert the wasted heat energy into electricity, thus increasing the efficiency of solar energy output. And by using the devices for heat recovery outside the building walls, the purpose of powering the building itself can be realized.

Talking about the follow-up plan of this research, Zeng Wei said that at present, the main use of polyaniline to modify the electrode, its redox characteristics and capacity is relatively limited. Therefore, the next step is to find more materials that correspond to the thermal potential under study to further increase the density of the redox electrodes and the energy output to the outside world. At the same time, the team also plans to improve the specific capacitance of the electrodes and increase the specific surface area to better increase the capacity ratio of the electrodes. In addition, they will continue to optimize the structural design of the hydrogel itself and broaden the choice of materials.

Other contributors include Xia Yang, Dongyu Zhu, Guangdong University of Technology; Fei Wang, Chen Wu and Jianchao Jia, Institute of Chemical Engineering, Guangdong Academy of Sciences; and Jin Liu, Department of Mechanical and Aerospace Engineering, Hong Kong University of Science and Technology.

Reference
Authors: XIA YANG, JIN LIU, JIANCHAO JIA, CHEN WU, FEI WANG, DONG YU ZHU , AND WEI ZENG
Title of original paper: Energy Density in Ionic Thermoelectric Generators by Prussian Blue Electrodes
Journal: Energy Material Advances
DOI: 10.34133/energymatadv.0089
Affiliations: 1The  Center  of  Flexible  Sensing  Technology,  Institute  of  Chemical  Engineering,  Guangdong  Academy  of  Sciences, Guangzhou 510665, China. 2School of Chemical Engineering and Light Industry, Guangdong University of Technology, Guangzhou 510006, China. 3Department of Mechanical and Aerospace Engineering, The Hong Kong University of Science and Technology, Kowloon Clear Water Bay, Hong Kong, China.
About Dr. Zeng:

Wei Zeng is Professor of chemistry and physics of polymers, Institute of Chemical Engineering, Guangdong Academy of Sciences. He obtained his Ph.D. in Polymer chemistry and physics from Sun Yat- Sen University in 2007 and worked as research fellow in Institute of Textiles and Clothing, The Hong Kong Polytechnic University until 2019. His research focused on the development and applications of nano generators and flexible wearable electronic devices.

They published their work on Apr. 10 in Energy Material Advances.

Media Contact

Ning Xu
Beijing Institute of Technology Press Co., Ltd
xuning1907@foxmail.com

Media Contact

Ning Xu
Beijing Institute of Technology Press Co., Ltd

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