High temporal resolution transparent thermoelectric temperature sensors for photothermal effect sensing

Junhee Lee; Seongkwon Hwang; Nari Hong; Jeonghun Kwak; Jae Eun Jang; Seungjun Chung; Hongki Kang

doi:10.1039/d2mh00813k

High temporal resolution transparent thermoelectric temperature sensors for photothermal effect sensing

Junhee Lee, Seongkwon Hwang, Nari Hong, Jeonghun Kwak, Jae Eun Jang, Seungjun Chung, Hongki Kang

Department of Electrical Engineering and Computer Science

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

We propose inkjet-printed high-speed and transparent temperature sensors based on the thermoelectric effect for direct monitoring of the photothermal effect. They consist of highly transparent organic thermoelectric materials that allow excellent biocompatibility and sub-ms temporal resolution, simultaneously. Our transparent thermoelectric temperature sensors can be used to advance various photothermal biomedical applications.

Original language	English
Pages (from-to)	160-170
Number of pages	11
Journal	Materials Horizons
Volume	10
Issue number	1
DOIs	https://doi.org/10.1039/d2mh00813k
State	Published - 18 Oct 2022

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© 2023 The Royal Society of Chemistry.

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abstract = "We propose inkjet-printed high-speed and transparent temperature sensors based on the thermoelectric effect for direct monitoring of the photothermal effect. They consist of highly transparent organic thermoelectric materials that allow excellent biocompatibility and sub-ms temporal resolution, simultaneously. Our transparent thermoelectric temperature sensors can be used to advance various photothermal biomedical applications.",

author = "Junhee Lee and Seongkwon Hwang and Nari Hong and Jeonghun Kwak and Jang, {Jae Eun} and Seungjun Chung and Hongki Kang",

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AU - Lee, Junhee

AU - Hwang, Seongkwon

AU - Hong, Nari

AU - Kwak, Jeonghun

AU - Jang, Jae Eun

AU - Chung, Seungjun

AU - Kang, Hongki

PY - 2022/10/18

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AB - We propose inkjet-printed high-speed and transparent temperature sensors based on the thermoelectric effect for direct monitoring of the photothermal effect. They consist of highly transparent organic thermoelectric materials that allow excellent biocompatibility and sub-ms temporal resolution, simultaneously. Our transparent thermoelectric temperature sensors can be used to advance various photothermal biomedical applications.

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High temporal resolution transparent thermoelectric temperature sensors for photothermal effect sensing

Abstract

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