연구처

연성물질 열물리 연구실

SoftHeat lab.

우리 연구실은 폴리머 및 생체 조직을 포함한 연질 재료의 열전달 이해, 전자 장치 및 의약품 관련 응용, 이색적인 열적 특성의 재료 개발에 중점을 둡니다. 예를 들어, 우리 실험실은 저온 에서 고유 한 동물 행동을 식별하고 열에너지 로 조직 기능을 제어하는 방법을 식별하는 빠르 고 정밀한 냉각 기술을 개발합니다. 또한 다양 한 기체 종 센서 용 그래 핀 관련 소재의 저비용 제조 방법, 탄소 계 복합 재료의 기계적 물성 강화, 고성능 열 시스템, 기능성 여과 시트를 개발하고 있습니다. 이러한 주제를 통해 우리는 연구결과를 개척할 뿐만 아니라 상용화를 위한 또 다른 스핀 오프 랩 기술을 목표로 합니다.
Our laboratory's primary focus centers on comprehending heat transfer phenomena in soft materials, encompassing polymers and living tissues. We explore their practical applications in electronic devices and medicinal contexts, while also delving into the advancement of materials possessing exotic thermal properties. As an illustration, we specialize in the development of rapid and precise cooling technology, which facilitates the identification of unique animal behaviors at low temperatures. Moreover, we investigate methods to control tissue functions through thermal energy manipulation. Additionally, our research efforts extend to the cost-effective manufacturing of graphene-related materials, designed for applications in diverse gaseous species sensors, enhanced mechanical properties of carbon-based composites, high-performance thermal systems, and functional filtration sheets. By engaging in these research endeavors, our aim is not only to achieve pioneering research findings but also to create spin-off laboratory technologies suitable for commercialization purposes.

Our laboratory's primary focus centers on comprehending heat transfer phenomena in soft materials, encompassing polymers and living tissues. We explore their practical applications in electronic devices and medicinal contexts, while also delving into the advancement of materials possessing exotic thermal properties. As an illustration, we specialize in the development of rapid and precise cooling technology, which facilitates the identification of unique animal behaviors at low temperatures. Moreover, we investigate methods to control tissue functions through thermal energy manipulation. Additionally, our research efforts extend to the cost-effective manufacturing of graphene-related materials, designed for applications in diverse gaseous species sensors, enhanced mechanical properties of carbon-based composites, high-performance thermal systems, and functional filtration sheets. By engaging in these research endeavors, our aim is not only to achieve pioneering research findings but also to create spin-off laboratory technologies suitable for commercialization purposes.