Enhancement of External Quantum Efficiency of Red Phosphorescent Organic Light‐Emitting Devices with Facially Encumbered and Bulky Pt<sup>II</sup> Porphyrin Complexes

Ikai, Masamichi; Ishikawa, Fumiaki; Aratani, Naoki; Osuka, Atsuhiro; Kawabata, Sueo; Kajioka, Takanori; Takeuchi, Haruki; Fujikawa, Hisayoshi; Taga, Yasunori

doi:10.1002/adfm.200500492

Cited by 55 publications

(28 citation statements)

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“…To this end, we took advantage of our mature experience in the synthesis of BODIPYporphyrin dyads and their implementation in solar cells [16][17][18][19] to trapping process at the porphyrin, (ii) there is an almost quantitative ET process from the BODIPY to the porphyrin, (iii) there is a lack of phase separation between both components in thin films as they are linked, and (iv) porphyrins are considered as one of the best candidates for developing narrow emission deepred OLEDs. 2,[20][21][22][23][24][25][26][27] On the other hand, LECs are ideal devices to demonstrate our concept, as they are single layer devices based on a single active component, allowing to settle clear relationships between molecular design and device performance. [8][9][10] In addition, this work provides, to the best of our knowledge, the first example of using this family of dyads in lighting schemes, demonstrating the benefits that state from their unique features.…”

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confidence: 99%

Benefits of using BODIPY–porphyrin dyads for developing deep-red lighting sources

et al. 2016

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Neutral free-base and metallo-porphyrins have been successfully used in organic light-emitting diodes (OLEDs) and solar cells. [1][2][3][4][5] This field is mainly driven by their ease of modification to enhance light-harvesting and photoluminescence (PL) properties based on an efficient energy and/or electron transfer process from moieties attached at the periphery to the porphyrin core.This feature of dyad-like porphyrins is of utmost relevance for lighting schemes, since it could open a new avenue to decouple charge transport and emission processes by only using one active compound. This is more critical in light-emitting electrochemical cells (LECs) than in OLEDs, in which the charge transport is not performed by the emitter, but by a multilayered device architecture. 6,7 In LECs, the presence of mobile ions in the active singlelayer assists the charge injection process, while the charge transport, electron-hole recombination, and emission processes occur via the emitter. 8-10 Thus, to define clear guidelines to design LEC materials that are intrinsically able to decouple charge transport and emission is a challenge in the field. 8-10As an alternative, the host-guest approach by (i) using OLED-host materials doped with ionic liquids, 11 (ii) mixtures of iTMCs, 12-14 and (iii) using ionic-based small-molecule charge transporters, 15 has been explored in LECs to date. All these approaches show the typical problem of the host-guest strategy, that is, to determine the optimum doping level and effective doping range, which are typically very low and narrow, respectively. Here, a low doping level causes an inefficient energy transfer (ET) from the host to the guest, resulting in a poor color purity and device performance, while a high concentration of the guest leads to the a strong self-quenching of its emission and a prominent phase separation in thin films. The latter are paramount in determining the overall device performance. Herein, we report on a new concept to decouple charge transport and emission in small-molecule LECs by using only one active compound mixed with an ionic electrolyte. To this end, we took advantage of our mature experience in the synthesis of BODIPYporphyrin dyads and their implementation in solar cells [16][17][18][19] to further expand their application to lighting schemes, in which the above-mentioned drawbacks of the host-guest approach are circumvented. In detail, two BODIPY-porphyrin dyads have been designed -Scheme 1. On one hand, these dyads fulfill all of the key requirements, such as (i) the energy alignment of the electronic levels between the BODIPY and the porphyrin evokes in a chargeScheme 1 Synthesis of BODIPY-porphyrin dyads 1 and 2.

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Benefits of using BODIPY–porphyrin dyads for developing deep-red lighting sources

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“…Transition metal complexes vaulted with carbon chains have been extensively studied as functional materials due to their specific three‐dimensional structures based on bridged ligands and coordination planes . A number of such vaulted complexes have been prepared by the reaction of transition metals with tether‐linked ligands, and the correlations between various structures and functions have been studied. This prior research has focused on the association, , , and aggregation properties of these compounds, as well as their optical characteristics, , , , and catalytic activity during organic transformation , …”

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confidence: 99%

Dynamic Rotational Motions of Vaulted Chiral trans‐Bis(salicylaldiminato)palladium(II) Complexes Bearing Rigid or Flexible Carbon Chain Linkers

Ikeshita

2018

Eur J Inorg Chem

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Planar chiral, trans-bis(salicylaldiminato)palladium(II) complexes having a macrocyclic vaulting structure consisting of either a heptamethylene-butadiynylene-heptamethylene (1) or polymethylene (2) bridge were synthesized and subsequently characterized by NMR, IR, high-resolution mass spectrometry, and single crystal XRD. The dynamic rotational behaviors of these vaulted complexes resulting from a skipping-rope-like [a] 4689 Scheme 1. Chirality inversion of planar, chiral, vaulted complexes 1 and 2 based on a skipping-rope-like rotational motion.

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“…OLEDs offer a number of advantages over conventional displays, such as faster response time, high efficiency, high color purity, low-voltage driving requirements, and simplicity. [1][2][3][4][5] Despite considerable progress that has been made over recent decades in this area, full-color OLEDs still require improvement in terms of efficiency, purity, durability, manufacturing process, and cost. These factors in turn depend on the evolution of high efficiency OLEDs materials, including RGB emitters.…”

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confidence: 99%

Synthesis and Characterization of Novel Red-Light-Emitting Materials with Push-Pull Structure Based on Benzo[1,2,5]thiadiazole Containing Arylamine as an Electron Donor and Cyanide as an Electron Acceptor

Ju¹,

Jung²,

Zhao³

et al. 2008

Bulletin of the Korean Chemical Society

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New efficient red emitter having short π-conjugation length and asymmetric bulky structure, 2-(7-diphenylamino-benzo[1,2,5]thiadiazole-4-ylmethylene)-malononitrile, was synthesized and characterized. Using this material as a dopant, we fabricated electroluminescence device with a structure of ITO/DNTPD/ NPD/BTZA (5 wt% in Alq 3 )/Alq 3 /LiF/Al. The device exhibited a high brightness of 761 cd/m 2 at a driving voltage of 4.8 V, and current efficiency is 0.75 cd/A. The Commission International de I'Eclairage (CIE) coordinates of the EL device were found to be (0.62, 0.37) at 10 mA/cm 2 .

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Enhancement of External Quantum Efficiency of Red Phosphorescent Organic Light‐Emitting Devices with Facially Encumbered and Bulky Pt^II Porphyrin Complexes

Cited by 55 publications

References 30 publications

Benefits of using BODIPY–porphyrin dyads for developing deep-red lighting sources

Benefits of using BODIPY–porphyrin dyads for developing deep-red lighting sources

Dynamic Rotational Motions of Vaulted Chiral trans‐Bis(salicylaldiminato)palladium(II) Complexes Bearing Rigid or Flexible Carbon Chain Linkers

Synthesis and Characterization of Novel Red-Light-Emitting Materials with Push-Pull Structure Based on Benzo[1,2,5]thiadiazole Containing Arylamine as an Electron Donor and Cyanide as an Electron Acceptor

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Enhancement of External Quantum Efficiency of Red Phosphorescent Organic Light‐Emitting Devices with Facially Encumbered and Bulky PtII Porphyrin Complexes

Cited by 55 publications

References 30 publications

Benefits of using BODIPY–porphyrin dyads for developing deep-red lighting sources

Benefits of using BODIPY–porphyrin dyads for developing deep-red lighting sources

Dynamic Rotational Motions of Vaulted Chiral trans‐Bis(salicylaldiminato)palladium(II) Complexes Bearing Rigid or Flexible Carbon Chain Linkers

Synthesis and Characterization of Novel Red-Light-Emitting Materials with Push-Pull Structure Based on Benzo[1,2,5]thiadiazole Containing Arylamine as an Electron Donor and Cyanide as an Electron Acceptor

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Enhancement of External Quantum Efficiency of Red Phosphorescent Organic Light‐Emitting Devices with Facially Encumbered and Bulky Pt^II Porphyrin Complexes