Silver in the Center Enhances Room‐Temperature Phosphorescence of a Platinum Sub‐nanocluster by 18 Times

Akanuma, Yuki; Imaoka, Takane; Sato, Hiroyasu; Yamamoto, Kimihisa

doi:10.1002/ange.202012921

Cited by 7 publications

(5 citation statements)

References 47 publications

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“…These considerations are even more dramatic when two different metal precursors are engaged, rendering the rational preparation of heterobimetallic entities extremely challenging. Postmodification strategies, such as doping of monometallic clusters with heterometal atoms, [25][26][27][28][29][30] or rearrangement of two independently synthesized monometallic clusters, [31][32][33] are emerging approaches that have attracted substantial interest recently, but so far limited to thiolate or carbonyl metal clusters. Lability phenomena and metal exchange strategies in polyhydride metal clusters is much less investigated to date.…”

Section: Introductionmentioning

confidence: 99%

Rational Preparation of Well-Defined Multinuclear Iridium–Aluminum Polyhydride Clusters and Comparative Reactivity

et al. 2022

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We report an original alkane elimination approach, entailing the protonolysis of triisobutylaluminium by the acidic hydrides from Cp*IrH4. This strategy allows access to a series of well-defined tri-and tetranuclear iridium aluminium polyhydride clusters, depending on the stoichiometry: 3) and [(Cp*IrH3)3Al] (4). Contrary to most transition metal aluminohydride complexes which can be considered as [AlHx+3] xaluminates and LnM + moieties, the situation here is reversed: these complexes have original structures which are best described as [Cp*IrHx] n-iridate units surrounding cationic Al(III) fragments. This is corroborated by reactivity studies, which show that the hydrides are always retained at the iridium sites and that the [Cp*IrH3] -moieties are labile and can be transmetallated to yield potassium ([KIrCp*H3], 8) or silver (([AgIrCp*H3]n, 10) derivatives of potential synthetic interest. DFT calculations show that the bonding situation can vary in these systems, from 3-centre 2-electron hydride-bridged Lewis adducts of the form Ir-H⇀Al, to direct polarized metal-metal interaction from donation of d-electrons of Ir to the Al metal, and both types of interactions are at place to some extent in each of these clusters.

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Section: Introductionmentioning

confidence: 99%

Rational Preparation of Well-Defined Multinuclear Iridium–Aluminum Polyhydride Clusters and Comparative Reactivity

et al. 2022

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“…They ascribed the emission enhancement to the stabilization of charges on the LUMO orbital by the central Ag atom. Yamamoto et al 15 enhanced the emission quantum yield (QY) of a platinum-thiolate complex by 18 times through inclusion of an Ag atom into the Pt core. They demonstrated that the rigid crystallization structure and the reduced nonradiative decay rate are the main reasons that contribute to the emission enhancement of the silver-doped nanoclusters.…”

Section: Introductionmentioning

confidence: 99%

“…They demonstrated that the rigid crystallization structure and the reduced nonradiative decay rate are the main reasons that contribute to the emission enhancement of the silver-doped nanoclusters. These prominent studies suggest that by properly manipulating the incorporation of another metal element, 13,16 in combination with the emerging assembly behavior of the derived nanoclusters, 15 the photoluminescence properties including QY and emission energy can be modulated effectively.…”

Section: Introductionmentioning

confidence: 99%

A cooperative effect of copper-induction and AIE leading to bright luminescence of gold nanoclusters

Zhang,

Feng,

Luan

et al. 2024

Inorg. Chem. Front.

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“…On a note, the PL properties of silver, copper, and other types of NCs are not covered in this review. [73][74][75][76][77][78][79][80][81][82][83][84][85][86]…”

Section: Introductionmentioning

confidence: 99%

“…On a note, the PL properties of silver, copper, and other types of NCs are not covered in this review. [ 73–86 ]…”

Section: Introductionmentioning

confidence: 99%

Visible to NIR‐II Photoluminescence of Atomically Precise Gold Nanoclusters

Liu,

Luo,

Jin

2023

Advanced Materials

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Atomically precise gold nanoclusters (NCs) have emerged as a new class of precision materials and attracted wide interest in recent years. One of the unique properties of such nanoclusters pertains to their photoluminescence (PL), for that it can widely span visible to near infrared–I and –II wavelengths, and even beyond 1700 nm by manipulating the size, structure, and composition. The current research efforts focus on the structure‐PL correlation and the development of strategies for raising the PL quantum yields, which is nontrivial when moving from the visible to the near‐infrared wavelengths, especially in the NIR–II region. This review summarizes the recent progress in the field, including i) the types of PL observed in gold NCs such as fluorescence, phosphorescence and thermally activated delayed fluorescence, as well as dual emission; ii) some effective strategies that have been devised to improve the PLQY of gold NCs by heterometal doping, surface rigidification, and core phonon engineering, with double‐digit QYs for the NIR PL on the horizons; and iii) the applications of luminescent gold NCs in bioimaging, photosensitization, and optoelectronics. Finally, we highlight the remaining challenges and opportunities for future research.This article is protected by copyright. All rights reserved

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Silver in the Center Enhances Room‐Temperature Phosphorescence of a Platinum Sub‐nanocluster by 18 Times

Cited by 7 publications

References 47 publications

Rational Preparation of Well-Defined Multinuclear Iridium–Aluminum Polyhydride Clusters and Comparative Reactivity

Rational Preparation of Well-Defined Multinuclear Iridium–Aluminum Polyhydride Clusters and Comparative Reactivity

A cooperative effect of copper-induction and AIE leading to bright luminescence of gold nanoclusters

Visible to NIR‐II Photoluminescence of Atomically Precise Gold Nanoclusters

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