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Solid-state thermal transistor demonstrated
Design of a solid-state electrochemical thermal transistor. In the "off" state (left), the active material has reduced oxygen, which reduces its thermal conductivity. In the "on" state (right), the active material is rich in oxygen, greatly increasing its thermal conductivity (Qian Yang, et al. Advanced Functional Materials. February 21, 2023).
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Solid-state thermal transistor demonstrated
by Staff Writers
Sapporo, Japan (SPX) Mar 06, 2023

An effective, stable solid-state electrochemical transistor has been developed, heralding a new era in thermal management technology.

In modern electronics, a large amount of heat is produced as waste during usage-this is why devices such as laptops and mobile phones become warm during use, and require cooling solutions. In the last decade, the concept of managing this heat using electricity has been tested, leading to the development of electrochemical thermal transistors-devices that can be used to control heat flow with electrical signals. Currently, liquid-state thermal transistors are in use, but have critical limitations: chiefly, any leakage causes the device to stop working.

A research team at Hokkaido University lead by Professor Hiromichi Ohta at the Research Institute for Electronic science has developed the first solid-state electrochemical thermal transistor. Their invention, described in the journal Advanced Functional Materials, is much more stable than and just as effective as current liquid-state thermal transistors.

"A thermal transistor consists broadly of two materials, the active material and the switching material," explains Ohta. "The active material has changeable thermal conductivity (??), and the switching material is used to control the thermal conductivity of the active material."

The team constructed their thermal transistor on a yttrium oxide-stabilized zirconium oxide base, which also functioned as the switching material, and used strontium cobalt oxide as the active material. Platinum electrodes were used to supply the power required to control the transistor.

The thermal conductivity of the active material in the "on" state was comparable to some liquid-state thermal transistors. In general, thermal conductivity of the active material was four times higher in the "on" state compared to the "off" state. Further, the transistor was stable over 10 use cycles, better than some current liquid-state thermal transistors. This behavior was tested across more than 20 separately fabricated thermal transistors, ensuring the results were reproducible. The only drawback was the operating temperature of around 300 C.

"Our findings show that solid-state electrochemical thermal transistors have the potential to be just as effective as liquid-state electrochemical thermal transistors, with none of their limitations," concludes Ohta. "The main hurdle to developing practical thermal transistors is the high resistance of the switching material, and hence a high operating temperature. This will be the focus of our future research."

Research Report:Solid-State Electrochemical Thermal Transistors

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