Ultrasensitive microscale temperature sensing—flexible design possible
In biotechnology and healthcare, it is crucial to detect small temperature changes and heat generation with high sensitivity. This invention achieves remarkable temperature sensitivity by using ionic liquids with a high Seebeck coefficient in thermocouples, far surpassing conventional solid-state materials. The device employs a microfluidic chip, allowing the liquids to be physically separated but electrically connected, enabling flexible sensor structures. This system makes it possible to conduct ultra-sensitive temperature measurements even on curved and irregular surfaces, expanding the practical utility of temperature sensing well beyond what is possible with traditional solid-state sensors.
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The revenue generated from technology transfer is reinvested as new research funding for universities and researchers, and is utilized to create further research outcomes. To ensure the smooth operation of this cycle, known as the "Intellectual Creation Cycle," we will vigorously promote technology transfer. The types of seeds we handle include patents, know-how, databases, and programs. We have established a collaborative framework by signing basic technology transfer agreements with the following universities (as of June 1, 2025): Tohoku University, Hirosaki University, Iwate University, Akita University, Fukushima University, Yamagata University, Tohoku Gakuin University, Iwate Medical University, Fukushima Medical University, Aizu University, Miyagi University, Hokkaido University, Muroran Institute of Technology, and Showa Medical University.
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