TiO2 nano-porous photoelectrochemical cells (PECs) sensitized with mixed cationic/anionic dye systems: Role of the second cationic fluorescent dye on the photocurrent enhancement

Jayaweera PM; Rajapaksha RMSP; Tennakone K

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TiO2 nano-porous photoelectrochemical cells (PECs) sensitized with mixed cationic/anionic dye systems: Role of the second cationic fluorescent dye on the photocurrent enhancement

机译：混合阳离子/阴离子染料系统敏化的TiO2纳米多孔光电化学电池（PEC）：第二种阳离子荧光染料对光电流增强的作用

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Bromopyrogallol red (BPR), an anionic dye material was used in nano-porous photoelectrochemical cells as the sensitizer in conjunction with a fluorescent cationic dye, rhodamineB (RhB) and acridine orange (AO). The overlap between absorption and emission spectra of BPR/RhB and the formation of a strong associated complex influences the photoelectron transfer rate to be enhanced and to produce enhanced photovoltaic properties. Fluorescence quenching studies indicate that photoexcited cationic dye materials deactivate efficiently by BPR following different mechanisms. FTIR and rR spectroscopic evidences suggest that the electrostatic interaction of fluorescent cationic dye takes place from the -SO3- group of the BPR molecule. (c) 2005 Elsevier B.V. All rights reserved.

机译：溴邻苯三酚红（BPR）是一种阴离子染料，与荧光阳离子染料，若丹明B（RhB）和a啶橙（AO）一起用于纳米多孔光电化学电池中作为敏化剂。 BPR / RhB的吸收光谱和发射光谱之间的重叠以及强相关缔合物的形成影响了光电子传输速率的提高并产生了增强的光伏性能。荧光猝灭研究表明，光激发的阳离子染料材料通过BPR遵循不同的机理可以有效地失活。 FTIR和rR光谱证据表明，荧光阳离子染料的静电相互作用是从BPR分子的-SO3-基团发生的。（c）2005 Elsevier B.V.保留所有权利。

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《Chemical Physics Letters》 |2005年第3期|共6页
作者
Jayaweera PM; Rajapaksha RMSP; Tennakone K;
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正文语种 eng
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PHOTOVOLTAIC CELLS; CHARGE-TRANSFER; ELECTRODES; PHOTOSENSITIZATION; LIGHT; FILM;

机译：光电池;电荷转移;电极;光敏化;光;薄膜;

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1. TiO2 nano-porous photoelectrochemical cells (PECs) sensitized with mixed cationic/anionic dye systems: Role of the second cationic fluorescent dye on the photocurrent enhancement [J] . Jayaweera PM, Rajapaksha RMSP, Tennakone K Chemical Physics Letters . 2005,第1a3期

机译：混合阳离子/阴离子染料系统敏化的TiO2纳米多孔光电化学电池（PEC）：第二种阳离子荧光染料对光电流增强的作用
2. Nano-porous SAPO-34 enhanced thin-film nanocomposite polymeric membrane: Simultaneously high water permeation and complete removal of cationic/anionic dyes from water [J] . Negin Ghaemi, Parisa Safari Journal of Hazardous Materials . 2018,第SEPa15期

机译：纳米多孔SAPO-34增强型薄膜纳米复合聚合物膜：同时高水渗透性和从水中完全去除阳离子/阴离子染料
3. Enhanced adsorptive removal of anionic and cationic dyes from single or mixed dye solutions using MOF PCN-222 [J] . Haichao Li, Xinyu Cao, Chuang Zhang, RSC Advances . 2017,第27期

机译：使用MOF PCN-222增强了从单一或混合染料溶液中吸附去除阴离子和阳离子染料的能力
4. Treatment of Cationic Dye Wastewater with Hybrid Sorbent Generated by Anionic Dye Wastewater Hybridization with Calcium Fluoride [C] . Danhua Zhao, Xiulian Zhang, Wein Yin, ICAMMP 2012 . 2013

机译：用阴离子染料废水杂交与氟化钙产生杂交吸附剂的阳离子染料废水
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6. Enhanced Photocurrent via π-Bridge Extensionof Perylenemonoimide-Based Dyes for p-Type Dye-Sensitized SolarCells and Photoelectrochemical Cells [O] . Haonan Ye, Luze Shen, Shicong Zhang, 2018

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7. Photocurrents in the ZnO and TiO2Photoelectrochemical Cells Sensitized by Xanthene Dyes and Tetraphenylporphines. Effect of Substitution on the Electron Injection Processes [O] . Michio Matsumura, Kenro Mitsuda, Nobuyuki Yoshizawa, 1981

机译：ZnO和TiO2的光电流通过XANTHENE染料和四苯基苯敏致敏的电容器。取代对电子注入工艺的影响

TiO2 nano-porous photoelectrochemical cells (PECs) sensitized with mixed cationic/anionic dye systems: Role of the second cationic fluorescent dye on the photocurrent enhancement

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