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

34 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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多學科

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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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