Cathodic-controlled and near-infrared organic upconverter for local blood vessels mapping

Chih Hsien Yuan; Chih Chien Lee; Chun Fu Liu; Yun Hsuan Lin; Wei Cheng Su; Shao Yu Lin; Kuan Ting Chen; Yan De Li; Wen Chang Chang; Ya Ze Li; Tsung Hao Su; Yu Hsuan Liu; Shun Wei Liu

doi:10.1038/srep32324

Cathodic-controlled and near-infrared organic upconverter for local blood vessels mapping

Chih Hsien Yuan, Chih Chien Lee, Chun Fu Liu, Yun Hsuan Lin, Wei Cheng Su, Shao Yu Lin, Kuan Ting Chen, Yan De Li, Wen Chang Chang, Ya Ze Li, Tsung Hao Su, Yu Hsuan Liu, Shun Wei Liu

研究成果: 雜誌貢獻 › 文章 › 同行評審

30 引文斯高帕斯（Scopus）

摘要

Organic materials are used in novel optoelectronic devices because of the ease and high compatibility of their fabrication processes. Here, we demonstrate a low-driving-voltage cathodic-controlled organic upconverter with a mapping application that converts near-infrared images to produce images of visible blood vessels. The proposed upconverter has a multilayer structure consisting of a photosensitive charge-generation layer (CGL) and a phosphorescent organic light-emitting diode (OLED) for producing clear images with a high resolution of 600 dots per inch. In this study, temperature-dependent electrical characterization was performed to analyze the interfacial modification of the cathodic-controlled upconverter. The result shows that the upconverter demonstrated a high conversion efficiency of 3.46% because of reduction in the injection barrier height at the interface between the CGL and the OLED.

原文	英語
文章編號	32324
期刊	Scientific Reports
卷	6
DOIs	https://doi.org/10.1038/srep32324
出版狀態	已發佈 - 8月 31 2016
對外發佈	是

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10.1038/srep32324

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abstract = "Organic materials are used in novel optoelectronic devices because of the ease and high compatibility of their fabrication processes. Here, we demonstrate a low-driving-voltage cathodic-controlled organic upconverter with a mapping application that converts near-infrared images to produce images of visible blood vessels. The proposed upconverter has a multilayer structure consisting of a photosensitive charge-generation layer (CGL) and a phosphorescent organic light-emitting diode (OLED) for producing clear images with a high resolution of 600 dots per inch. In this study, temperature-dependent electrical characterization was performed to analyze the interfacial modification of the cathodic-controlled upconverter. The result shows that the upconverter demonstrated a high conversion efficiency of 3.46% because of reduction in the injection barrier height at the interface between the CGL and the OLED.",

author = "Yuan, {Chih Hsien} and Lee, {Chih Chien} and Liu, {Chun Fu} and Lin, {Yun Hsuan} and Su, {Wei Cheng} and Lin, {Shao Yu} and Chen, {Kuan Ting} and Li, {Yan De} and Chang, {Wen Chang} and Li, {Ya Ze} and Su, {Tsung Hao} and Liu, {Yu Hsuan} and Liu, {Shun Wei}",

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AU - Yuan, Chih Hsien

AU - Lee, Chih Chien

AU - Liu, Chun Fu

AU - Lin, Yun Hsuan

AU - Su, Wei Cheng

AU - Lin, Shao Yu

AU - Chen, Kuan Ting

AU - Li, Yan De

AU - Chang, Wen Chang

AU - Li, Ya Ze

AU - Su, Tsung Hao

AU - Liu, Yu Hsuan

AU - Liu, Shun Wei

PY - 2016/8/31

Y1 - 2016/8/31

N2 - Organic materials are used in novel optoelectronic devices because of the ease and high compatibility of their fabrication processes. Here, we demonstrate a low-driving-voltage cathodic-controlled organic upconverter with a mapping application that converts near-infrared images to produce images of visible blood vessels. The proposed upconverter has a multilayer structure consisting of a photosensitive charge-generation layer (CGL) and a phosphorescent organic light-emitting diode (OLED) for producing clear images with a high resolution of 600 dots per inch. In this study, temperature-dependent electrical characterization was performed to analyze the interfacial modification of the cathodic-controlled upconverter. The result shows that the upconverter demonstrated a high conversion efficiency of 3.46% because of reduction in the injection barrier height at the interface between the CGL and the OLED.

AB - Organic materials are used in novel optoelectronic devices because of the ease and high compatibility of their fabrication processes. Here, we demonstrate a low-driving-voltage cathodic-controlled organic upconverter with a mapping application that converts near-infrared images to produce images of visible blood vessels. The proposed upconverter has a multilayer structure consisting of a photosensitive charge-generation layer (CGL) and a phosphorescent organic light-emitting diode (OLED) for producing clear images with a high resolution of 600 dots per inch. In this study, temperature-dependent electrical characterization was performed to analyze the interfacial modification of the cathodic-controlled upconverter. The result shows that the upconverter demonstrated a high conversion efficiency of 3.46% because of reduction in the injection barrier height at the interface between the CGL and the OLED.

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Cathodic-controlled and near-infrared organic upconverter for local blood vessels mapping

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