<![CDATA[Near-infrared quantum-cutting and long-persistent phosphor Ca <ce:inf loc='post'>3</ce:inf>Ga <ce:inf loc='post'>2</ce:inf>Ge <ce:inf loc='post'>3</ce:inf>O <ce:inf loc='post'>12</ce:inf>: Pr <ce:sup loc='post'>3+</ce:sup>, Yb <ce:sup loc='post'>3+</ce:sup> for application in <ce:italic>in?vivo</ce:italic> bioimaging and dye-sensitized solar cells]]>

W.B. Dai; Y.F. Lei; J. Zhou; M. Xu; L.L. Chu; L. Li; P. Zhao; Z.H. Zhang

首页> 外文期刊>Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics >3Ga 2Ge 3O 12: Pr 3+, Yb 3+ for application in in?vivo bioimaging and dye-sensitized solar cells]]>

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3Ga 2Ge 3O 12: Pr 3+, Yb 3+ for application in in?vivo bioimaging and dye-sensitized solar cells]]>

机译：<！[CDATA [CDATA [近红外量子切割和长期持久性磷光体如 3 GA 2 GE 3 O 12 ：PR 3 + ，yb 3 + 在在Δvivo生物体和染料中的应用太阳能电池]]>

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Abstract

Either quantum-cutting luminescence (QCL) or long-persistent luminescence (LPL) phosphor has been attracted attention for practical applications. Due to the real-time excitation source (low efficiency) for the QCL (LPL) process, both QCL and LPL have their own shortcomings. By combining the inherent properties of QCL and LPL, we devise a concept of QCLPL (quantum cutting long persistent luminescence), which can obtain high efficient LPL (at least?>?100%). Germinate Ca3Ga2Ge3O12(CGG) is chosen as matrix due to its low phonon frequency. Pr3+is selected as donor (D) ion owing to its ladder-like arranged energy levels which facilitate the photon absorption and subsequent energy transfer (ET). Yb3+ion is codoped as acceptor (A) ion due to its absorption and emission in near-infrared (NIR) region. Since the “optical transmission window” of biological tissues within 700–1100?nm allows for deeper light penetration, the QCLPL CGG: Pr3+, Yb3+(CGGPY) results in increasing bioimage contrast. Meanwhile, as a down-conversion luminescent medium, CGGPY transfers UV light to NIR light, which increases the solar light harvest and photocurrent of dye-sensitized solar cells (DSSCs). Altogether, the strategy of combination of QCL and LPL processes in one host lattice has important implications for infrared lighting, DSSCs, bioimaging and et?al.

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Highlights

?Quantum cutting long persistent luminescence processes was studied in CGGPY.

?QCLPL CGGPY as agent inin?vivotarget bioimaging was achieved.

?QCLPL CGGPY as down-conversion luminescent medium in DSSCs improves efficiency.

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抽象

量子切割发光（QCL）或长持久发光（LPL）荧光粉被引起了实用的注意应用程序。由于QCL（LPL）过程的实时激励源（低效率），QCL和LPL都具有自己的缺点。通过组合QCL和LPL的固有特性，我们设计了QCLPL（量子切割长持续发光）的概念，其可以获得高效的LPL（至少？> 100％）。发芽CA 3 GA 2 GE 3 < / CE：INF> O 12 （CGG）由于其低位频率，因此选择为矩阵。 Pr 3 + 由于其梯形布置的能量水平而选择供体（d）离子，这促进了光子吸收和随后的能量转移（Et）。 Yb 3 + 离子由于其在近红外（NIR）区域的吸收和发射而被称为受体（A）离子。由于700-1100内的生物组织的“光传输窗口”允许更深的光渗透，因此QCLPL CGG：PR 3 + ，YB 3 + （cggpy）导致越来越多的生物显图像对比度。同时，作为下转换发光介质，CGGPY将UV光传递给NIR光，这增加了染料敏化太阳能电池（DSSCs）的太阳能光收获和光电流。总共，一个主机晶格中的QCL和LPL进程的组合策略对红外照明，DSSC，BioMimaging和EtΔAl具有重要意义。

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亮点

？量子切割在CGGPY中研究了NG持久发光过程。

？ qclpl cggpy作为在中的代理>在？vivo 目标生物映像中实现。

？ qclpl cggpy作为dsscs中的下转换发光介质提高效率。 ]]>

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来源
《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2017年第2017期|共10页
作者
W.B. Dai; Y.F. Lei; J. Zhou; M. Xu; L.L. Chu; L. Li; P. Zhao; Z.H. Zhang;
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作者单位

Key Laboratory for Green Chemical Process of Ministry of Education Hubei Key Laboratory of Plasma Chemistry and Advanced Materials School of Material Science and Engineering Wuhan Institute of Technology;

School of Power and Mechanical Engineering Wuhan University;

Key Laboratory for Green Chemical Process of Ministry of Education Hubei Key Laboratory of Plasma Chemistry and Advanced Materials School of Material Science and Engineering Wuhan Institute of Technology;

Key Laboratory for Green Chemical Process of Ministry of Education Hubei Key Laboratory of Plasma Chemistry and Advanced Materials School of Material Science and Engineering Wuhan Institute of Technology;

Key Laboratory for Green Chemical Process of Ministry of Education Hubei Key Laboratory of Plasma Chemistry and Advanced Materials School of Material Science and Engineering Wuhan Institute of Technology;

Key Laboratory for Green Chemical Process of Ministry of Education Hubei Key Laboratory of Plasma Chemistry and Advanced Materials School of Material Science and Engineering Wuhan Institute of Technology;

Key Laboratory for Green Chemical Process of Ministry of Education Hubei Key Laboratory of Plasma Chemistry and Advanced Materials School of Material Science and Engineering Wuhan Institute of Technology;

Key Laboratory for Green Chemical Process of Ministry of Education Hubei Key Laboratory of Plasma Chemistry and Advanced Materials School of Material Science and Engineering Wuhan Institute of Technology;

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原文格式 PDF
正文语种 eng
中图分类合金学与各种性质合金;金属材料;
关键词
Near-infrared long persistent luminescence; Quantum-cutting; Germinate; Bioimaging; Dye-sensitized solar cells;

机译：近红外长持续发光;量子切割;发芽;生物成像;染料敏化太阳能电池;

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3Ga 2Ge 3O 12: Pr 3+, Yb 3+ for application in in?vivo bioimaging and dye-sensitized solar cells]]>

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