Molecular-engineered [Ir(Fppy)<sub>2</sub>(Mepic)] towards efficient blue-emission

Zanoni, Kassio P. S.; Ito, Akitaka; Iha, Neyde Yukie Murakami

doi:10.1039/c5nj01352f

Cited by 21 publications

(29 citation statements)

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“…[29][30][31][32][33][34][35][36][37][38][39][40] In this Perspective, we report recent breakthroughs and the state of the art on highlyefficient emissive Ir(III) complexes including a personal account elucidating the role of 3 molecular and electronic structure in controlling the photophysics of heteroleptic Ir(III) compounds of importance in light-emitting devices. 28,29,40,41 …”

Section: Introductionmentioning

confidence: 99%

“…40 A device was recently fabricated in a simple FTO/PEDOT:PSS/PVK:complex/Al architecture (PVK = polyvinylcarbazole) and led to an intense blue-emission, as depicted in Figure 7A. 135 A slight modification on the working mechanism of OLEDs by using highly concentrated mobile ions (lithium triflate) in the organic active layer led to the development of the first LEC by Pei et al, in 1995.…”

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confidence: 98%

“…Their first lowest-energy singlet transition (S 1 ) results from an orbital promotion from the HOMO to a π* (L^X) LUMO, and has been assigned to a MLCT state with LLCT mixing. 29,34,40,84 The wave function ( S1 ) for these MLCT-based S 1 states can be considered as a combination of spin () and spatial parts () ofthe d-and -orbital wave functions, (A) HOMO and LUMO electron contours, (B) orbital energies calculated by TD-DFT and (C) experimental redox potentials for the [Ir(Rppy) 2 (N^N)] + series. Adapted from reference 29 .…”

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confidence: 99%

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Ir(iii) complexes designed for light-emitting devices: beyond the luminescence color array

et al. 2015

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In pursuing novel efficient lighting technologies and materials, phosphorescent cyclometallated Ir(iii) complexes have been prominent due to their wide color arrays and highly efficient electroluminescence. Their photophysical properties are strongly influenced by spin-orbit coupling exerted by the iridium core, usually resulting in intense, short-lived emission, which can be systematically tuned as a triumph of molecular engineering. This Perspective aims to present recent breakthroughs and state of the art on emissive Ir(iii) compounds, in particular a personal account on heteroleptic [Ir(N^C)2(L^X)](+) complexes, addressing the mechanistic concepts behind their luminescence. Their fascinating photophysical properties strengthen application in more-efficient light-emitting technologies, such as organic light-emitting diodes and light-emitting electrochemical cells.

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Ir(iii) complexes designed for light-emitting devices: beyond the luminescence color array

et al. 2015

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“…18 Exemplos 22,140 . Complexos de Ir(III) com ligantes do tipo picolinato, 73,131,145 usualmente apresentam rendimentos quânticos bastante elevados, como no caso do consagrado [Ir(Fppy)2pic] (ϕ > 60%) 131…”

Section: Complexos Polipiridínicos Heterolépticos De Ir(iii)unclassified

“…148-150 em modos vibrônicos. O efeito rigidocrômico foi reportado para outros complexos de Ir(III),18,47,72,73,151,152 comparando, no entanto, apenas aspectos em meio fluido e em meio vítreo. No presente trabalho, realizou-se, pela primeira vez, um estudo com complexos polipiridínicos de Ir(III) em três meios distintos, em que se Parâmetros espectrais de emissão dos complexos em diferentes meios.…”

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Dispositivos moleculares para conversão de energia: filmes compactos de TiO>sub<2>/sub< em DSPECs e complexos de Ir(III)

Coppo¹

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Orientadora: Profa. Dra. Neyde Yukie Murakami Iha São Paulo 2018 À minha família, dedico este trabalho. AGRADECIMENTOS A Deus, que dispensa predicados, agradeço, pois tudo é por sua honra e glória. A Profa. Dra. Neyde Yukie Murakami Iha, pela orientação e compreensão, e ao Prof. Dr. Thomas Meyer, pela co-orientação e também respeito e inspiração. A minha amada família (em especial, aos meus pais Helena e Antonio, minha irmã e cunhado Taciana e Anderson, e minha sobrinha Lívia) pelo incondicional apoio, exemplo de amor e dedicação, e por serem indiscutivelmente a inspiração para o meu trabalho e minha vida. Aos docentes, técnicos e pós-. Aos colegas do IQ: Cida, Ronaldo, Laís, Danilo, Profa. Karina e, de modo bastante especial, ao Kassio pelo incansável e brilhante auxílio durante a execução das tarefas; ao Mario M. Sanematsu, da Escola Politécnica da USP pela preparação dos cátodos de alumínio; a Ana Paula, Antonio, Augusto e Cleia. Agradeço também a(o) Amar, Benjamin, Bing, Byron, Kyle, Seth, Ying da UNC e aos amigos e colegas de Cambé, Londrina, São Paulo, Chapel Hill e Quedas do Iguaçu, que torceram por mim. Agradeço à FAPESP e CAPES, pela bolsa de doutorado e reserva técnica, concedidas tanto no Brasil quanto no estágio no exterior (processos n o 2014/04903-8 e 2015/08139-3, Fundação de Amparo à Pesquisa do Estado de São Paulo), bem como ao CNPq pelo financiamento de projetos coordenados pela professora Neyde. Por fim, mas não menos importante, agradeço aos servidores do Instituto Federal de Educação, Ciência e Tecnologia do Paraná -IFPR Campus Avançado Quedas do Iguaçu, pela imensa ajuda dispensada durante o período de conclusão deste trabalho.The main focus of this thesis is: application of nanostructured TiO2 compact layers in dye-sensitized photoelectrosynthesis cells (DSPECs) and syntheses and characterization of Ir(III) polypyridyl complexes towards molecular devices. The first investigation focused on the preparation of nanostructured TiO2 sols using a sol-gel method. The deposition of these nanoparticles through the Layer-by-Layer method led to a thin film growth, which were applied at the photoanode of DSPECs between the conducting glass and the mesoporous network to evaluate the performance of these devices. The obtained thin films are highly compact and the photoelectrochemical characterization of DSPECs showed photocurrent enhancements of 53%, compared with non-modified devices. Voltammetry analyses depicted that the compact layers promote shifts to more negative potentials, which may lead to higher oxygen evolution efficiencies. Incident photon-to-current efficiencies (IPCE) corroborate the role of compact layers in these devices. Potential decay/electron lifetime measurementspioneered in DSPECsdemonstrated a successful accomplishment of such an innovative approach. The second part of this work focused on the obtention of Ir(III) complexes with potential application in luminescent systems. Three new polypyridyl heteroleptic Ir(III) complexes [Ir(Fppy)2(CF3pic)], [Ir(ppy)2(CF3pic)] and [Ir(Meppy)2...

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A Comprehensive Review of Luminescent Iridium Complexes Used in Light‐Emitting Electrochemical Cells (LEECs)

Henwood

Zysman‐Colman

2017

Iridium(III) in Optoelectronic and Photonics Applications

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Molecular-engineered [Ir(Fppy)₂(Mepic)] towards efficient blue-emission

Cited by 21 publications

References 65 publications

Ir(iii) complexes designed for light-emitting devices: beyond the luminescence color array

Ir(iii) complexes designed for light-emitting devices: beyond the luminescence color array

Dispositivos moleculares para conversão de energia: filmes compactos de TiO>sub<2>/sub< em DSPECs e complexos de Ir(III)

A Comprehensive Review of Luminescent Iridium Complexes Used in Light‐Emitting Electrochemical Cells (LEECs)

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Molecular-engineered [Ir(Fppy)2(Mepic)] towards efficient blue-emission

Cited by 21 publications

References 65 publications

Ir(iii) complexes designed for light-emitting devices: beyond the luminescence color array

Ir(iii) complexes designed for light-emitting devices: beyond the luminescence color array

Dispositivos moleculares para conversão de energia: filmes compactos de TiO>sub<2>/sub< em DSPECs e complexos de Ir(III)

A Comprehensive Review of Luminescent Iridium Complexes Used in Light‐Emitting Electrochemical Cells (LEECs)

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Molecular-engineered [Ir(Fppy)₂(Mepic)] towards efficient blue-emission