Stable and Efficient Solid-State Light-Emitting Electrochemical Cells Based on a Series of Hydrophobic Iridium Complexes

RubÉn D. Costa; Enrique OrtÍ; Daniel Tordera; Antonio PertegÁs; Henk J. Bolink; Stefan Graber; Catherine E. Housecroft; Ludmila Sachno; Markus Neuburger; Edwin C. Constable

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Stable and Efficient Solid-State Light-Emitting Electrochemical Cells Based on a Series of Hydrophobic Iridium Complexes

机译：基于一系列疏水铱配合物的稳定高效的固态发光电化学电池

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Light-emitting electrochemical cells (LECs) based on ionic transition-metal complexes (iTMCs) exhibiting high efficiency, short turn-on time, and long stability have recently been presented. Furthermore, LECs emitting in the full range of the visible spectrum including white light have been reported. However, all these achievements were obtained individually, not simultaneously, using in each case a different iTMC. In this work, device stability is maintained by employing intrinsically stable ionic iridium complexes, while increasing the complex and the device quantum yields for exciton-to-photon conversion. This is done by sequentially modifying the archetype ionic iridium complex [Ir(ppy)2(bpy)][PF6], where Hppy is 2-phenylpyridine and bpy is 2,2'-bipyridine, with methyl and phenyl groups on the bpy ligand. A full photophysical and theoretical description of a series of four complexes, including the archetype as a reference, is presented and their performance in LECs is characterized. Upon selecting suitable substituents, a twofold increase is obtained in the photoluminescence quantum yield in a solid film. This is reflected in a significant increase in the efficiency over time curve for LECs using this complex.

机译：最近已经提出了基于离子过渡金属配合物（iTMC）的发光电化学电池（LEC），其表现出高效率，短开启时间和长稳定性。此外，已经报道了在包括白光的整个可见光谱范围内发射的LEC。但是，所有这些成就都是分别使用不同的iTMC而不是同时获得的。在这项工作中，通过使用本征稳定的离子铱络合物来维持器件的稳定性，同时增加了复合物和激子到光子转化的器件量子产率。这是通过依次修饰原型离子铱配合物[Ir（ppy）2（bpy）] [PF6]（其中Hppy为2-苯基吡啶和bpy为2,2'-联吡啶）而在bpy配体上具有甲基和苯基。完整的光物理和理论上的描述，包括原型作为参考的四个复合物的一系列描述，并表征了它们在LEC中的性能。选择合适的取代基后，固体膜中的光致发光量子产率增加了两倍。对于使用这种复合体的LEC，效率随时间变化的曲线显着提高反映了这一点。

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来源
《Advanced energy materials》 |2011年第2期|1-9|共9页
作者
RubÉn D. Costa; Enrique OrtÍ; Daniel Tordera; Antonio PertegÁs; Henk J. Bolink; Stefan Graber; Catherine E. Housecroft; Ludmila Sachno; Markus Neuburger; Edwin C. Constable;
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作者单位

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

FundaciÓ General de la Universitat de Valencia (FGUV) PO Box 22085 Valencia Spain;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Department of Chemistry University of Basel Spitalstrasse 51 Basel CH-4056 Switzerland;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

Department of Chemistry University of Basel Spitalstrasse 51 Basel CH-4056 Switzerland;

Instituto de Ciencia Molecular Universidad de Valencia CatedrÁtico JosÉ BeltrÁn 2 Paterna E-46980 Spain;

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正文语种 eng
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Light-emitting electrochemical cell; iridium complex; ionic transition-metal complex; stability; efficiency;

机译：发光电化学电池;铱配合物;离子过渡金属配合物;稳定性;效率;

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专利

1. Highly Stable and Efficient Light-Emitting Electrochemical Cells Based on Cationic Iridium Complexes Bearing Arylazole Ancillary Ligands [J] . Martinez-Alonso Marta, Cerda Jesus, Momblona Cristina, Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2017,第17期

机译：基于阳离子铱络合物的高度稳定高效的发光电化学电池轴承芳基唑辅助配体
2. Toward Highly Efficient SoLid-State White Light-Emitting Electrochemical Cells: Blue-Green to Red Emitting Cationic Iridium Complexes with Imidazole-Type Ancillary Ligands [J] . Lei He, Juan Qiao, Lian Duan, Advanced Functional Materials . 2009,第18期

机译：向高效固态白光发射电化学电池：咪唑型辅助配体的蓝绿色至红色发光阳离子铱配合物。
3. Solid-state light-emitting electrochemical cells based on ionic iridium(III)complexes [J] . Tao Hu, Lei He, Lian Dnan Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2012,第10期

机译：基于离子铱（III）配合物的固态发光电化学电池
4. 15. Design of Novel Iridium Complexes to Obtain Stable and Efficient Light-Emitting Electrochemical Cells [C] . Rubén D. Costa EuChemS Chemistry Congress . 2012

机译：15.新型铱络合物的设计，以获得稳定高效的发光电化学电池
5. Blending ionic liquids to Ir complexes for applications in light-emitting electrochemical cells (LEECs). [D] . Bayatpour, Sareh. 2014

机译：将离子液体与Ir配合物共混，用于发光电化学电池（LEEC）。
6. Large Size Color-tunable Electroluminescence from Cationic Iridium Complexes-based Light-emitting Electrochemical Cells [O] . Qunying Zeng, Fushan Li, Tailiang Guo, -1

机译：基于阳离子铱配合物的发光电化学电池的大尺寸可调色电致发光
7. Highly Stable and Efficient Light-Emitting Electrochemical Cells Based on Cationic Iridium Complexes Bearing Arylazole Ancillary Ligands [O] . Marta Martínez-Alonso, Jesús Cerdá, Cristina Momblona, 2017

机译：基于阳离子铱络合物的高度稳定高效的发光电化学电池轴承芳基唑辅助配体

Stable and Efficient Solid-State Light-Emitting Electrochemical Cells Based on a Series of Hydrophobic Iridium Complexes

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