Groundbreaking cerium oxide-based thermal switches achieve remarkable performance, transforming heat flow control with sustainable and efficient technology.

Thermal switches, which electrically control heat transfer, are essential for the advancement of sophisticated thermal management systems. Historically, electrochemical thermal switches have been ...

Groundbreaking cerium oxide-based thermal switches achieve remarkable performance, transforming heat flow control with sustainable and efficient technology. Groundbreaking cerium oxide-based ...

An artistic representation of a thermal switch. Credit: Hiromichi Ohta, edited A revolutionary advancement in thermal switch technology has been achieved utilizing cerium oxide to significantly ...

Scientists at Hokkaido University have developed a groundbreaking way to make thermal switches both efficient and sustainable. Using a common mineral in an unexpected role, they’ve redefined how we ...

Historically, electrochemical thermal switches have been constrained by suboptimal performance, which impedes their extensive utilization in the electronics, energy, and waste heat recovery sectors.

Researchers at the Research Institute for Electronic Science, Hokkaido University, have developed a thermal switch using cerium oxide, offering improved efficiency and sustainability. An artistic ...

Automotive and Aerospace Applications: Rising integration of thermal switches in automotive and aerospace industries for temperature-sensitive components, enhancing vehicle and aircraft performance.

Automotive and Aerospace Applications: Rising integration of thermal switches in automotive and aerospace industries for temperature-sensitive components, enhancing vehicle and aircraft performance.

A team of researchers from the Research Institute for Electronic Science at Hokkaido University has made a major leap forward in heat management thanks to new cerium oxide-based thermal switches.