Visible-Transparent Luminescent Solar Concentrators Based on Carbon Nanodots in the Siloxane Matrix with Ultrahigh Quantum Yields and Optical Transparency at High-Loading Contents

Maria Jessabel Talite; Hsiu Ying Huang; Kun Bin Cai; King Chester Capinig Co; Phoa Adelina Cynthia Santoso; Sheng Hsiung Chang; Wu Ching Chou; Chi Tsu Yuan

doi:10.1021/acs.jpclett.9b03539

Visible-Transparent Luminescent Solar Concentrators Based on Carbon Nanodots in the Siloxane Matrix with Ultrahigh Quantum Yields and Optical Transparency at High-Loading Contents

Maria Jessabel Talite, Hsiu Ying Huang, Kun Bin Cai, King Chester Capinig Co, Phoa Adelina Cynthia Santoso, Sheng Hsiung Chang, Wu Ching Chou^*, Chi Tsu Yuan^*

^*此作品的通信作者

電子物理學系

研究成果: Article › 同行評審

37 引文斯高帕斯（Scopus）

摘要

Visible-transparent luminescent solar concentrators (VT-LSCs) can be integrated with solar cells for designing solar glasses. Recently, rare-earth complexes, semiconductor nanocrystals, and carbon nanodots (CNDs) have been applied in developing VT-LSCs. However, several challenges still existed, such as quantum yields (QYs) at high-loading contents, scattering/reabsorption losses, and stability. Here, highly luminescent and visible-transparent composites based on organosilane-functionalized CNDs (Si-CNDs) cross-linked in the siloxane matrix were prepared. The composites with a high-loading content (â10 wt %) possess ultrahigh QYs of â94% due to surface passivation, cross-linking-enhanced emission, and negligible inter-CND energy transfer. Moreover, they still appear exceptionally transparent and, thus, are suitable for VT-LSCs. Eco-friendly VT-LSCs without colored tinting were fabricated, yielding high internal and external quantum efficiencies of â66% and â3.9%. Our demonstration would pave a bright way for the utilization of eco-friendly VT-LSCs in solar glasses.

原文	English
頁（從 - 到）	567-573
頁數	7
期刊	Journal of Physical Chemistry Letters
卷	11
發行號	2
DOIs	https://doi.org/10.1021/acs.jpclett.9b03539
出版狀態	Published - 29 12月 2019

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Talite, M. J., Huang, H. Y., Cai, K. B., Capinig Co, K. C., Cynthia Santoso, P. A., Chang, S. H., Chou, W. C., & Yuan, C. T. (2019). Visible-Transparent Luminescent Solar Concentrators Based on Carbon Nanodots in the Siloxane Matrix with Ultrahigh Quantum Yields and Optical Transparency at High-Loading Contents. Journal of Physical Chemistry Letters, 11(2), 567-573. https://doi.org/10.1021/acs.jpclett.9b03539

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title = "Visible-Transparent Luminescent Solar Concentrators Based on Carbon Nanodots in the Siloxane Matrix with Ultrahigh Quantum Yields and Optical Transparency at High-Loading Contents",

abstract = "Visible-transparent luminescent solar concentrators (VT-LSCs) can be integrated with solar cells for designing solar glasses. Recently, rare-earth complexes, semiconductor nanocrystals, and carbon nanodots (CNDs) have been applied in developing VT-LSCs. However, several challenges still existed, such as quantum yields (QYs) at high-loading contents, scattering/reabsorption losses, and stability. Here, highly luminescent and visible-transparent composites based on organosilane-functionalized CNDs (Si-CNDs) cross-linked in the siloxane matrix were prepared. The composites with a high-loading content ({\^a}10 wt %) possess ultrahigh QYs of {\^a}94% due to surface passivation, cross-linking-enhanced emission, and negligible inter-CND energy transfer. Moreover, they still appear exceptionally transparent and, thus, are suitable for VT-LSCs. Eco-friendly VT-LSCs without colored tinting were fabricated, yielding high internal and external quantum efficiencies of {\^a}66% and {\^a}3.9%. Our demonstration would pave a bright way for the utilization of eco-friendly VT-LSCs in solar glasses.",

author = "Talite, {Maria Jessabel} and Huang, {Hsiu Ying} and Cai, {Kun Bin} and {Capinig Co}, {King Chester} and {Cynthia Santoso}, {Phoa Adelina} and Chang, {Sheng Hsiung} and Chou, {Wu Ching} and Yuan, {Chi Tsu}",

year = "2019",

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doi = "10.1021/acs.jpclett.9b03539",

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Talite, MJ, Huang, HY, Cai, KB, Capinig Co, KC, Cynthia Santoso, PA, Chang, SH, Chou, WC & Yuan, CT 2019, 'Visible-Transparent Luminescent Solar Concentrators Based on Carbon Nanodots in the Siloxane Matrix with Ultrahigh Quantum Yields and Optical Transparency at High-Loading Contents', Journal of Physical Chemistry Letters, 卷 11, 編號 2, 頁 567-573. https://doi.org/10.1021/acs.jpclett.9b03539

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AU - Talite, Maria Jessabel

AU - Huang, Hsiu Ying

AU - Cai, Kun Bin

AU - Capinig Co, King Chester

AU - Cynthia Santoso, Phoa Adelina

AU - Chang, Sheng Hsiung

AU - Chou, Wu Ching

AU - Yuan, Chi Tsu

PY - 2019/12/29

Y1 - 2019/12/29

N2 - Visible-transparent luminescent solar concentrators (VT-LSCs) can be integrated with solar cells for designing solar glasses. Recently, rare-earth complexes, semiconductor nanocrystals, and carbon nanodots (CNDs) have been applied in developing VT-LSCs. However, several challenges still existed, such as quantum yields (QYs) at high-loading contents, scattering/reabsorption losses, and stability. Here, highly luminescent and visible-transparent composites based on organosilane-functionalized CNDs (Si-CNDs) cross-linked in the siloxane matrix were prepared. The composites with a high-loading content (â10 wt %) possess ultrahigh QYs of â94% due to surface passivation, cross-linking-enhanced emission, and negligible inter-CND energy transfer. Moreover, they still appear exceptionally transparent and, thus, are suitable for VT-LSCs. Eco-friendly VT-LSCs without colored tinting were fabricated, yielding high internal and external quantum efficiencies of â66% and â3.9%. Our demonstration would pave a bright way for the utilization of eco-friendly VT-LSCs in solar glasses.

AB - Visible-transparent luminescent solar concentrators (VT-LSCs) can be integrated with solar cells for designing solar glasses. Recently, rare-earth complexes, semiconductor nanocrystals, and carbon nanodots (CNDs) have been applied in developing VT-LSCs. However, several challenges still existed, such as quantum yields (QYs) at high-loading contents, scattering/reabsorption losses, and stability. Here, highly luminescent and visible-transparent composites based on organosilane-functionalized CNDs (Si-CNDs) cross-linked in the siloxane matrix were prepared. The composites with a high-loading content (â10 wt %) possess ultrahigh QYs of â94% due to surface passivation, cross-linking-enhanced emission, and negligible inter-CND energy transfer. Moreover, they still appear exceptionally transparent and, thus, are suitable for VT-LSCs. Eco-friendly VT-LSCs without colored tinting were fabricated, yielding high internal and external quantum efficiencies of â66% and â3.9%. Our demonstration would pave a bright way for the utilization of eco-friendly VT-LSCs in solar glasses.

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Visible-Transparent Luminescent Solar Concentrators Based on Carbon Nanodots in the Siloxane Matrix with Ultrahigh Quantum Yields and Optical Transparency at High-Loading Contents

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