Toward the Controlled Synthesis of Highly Dispersed Metal Clusters Enabled by Downsizing Crystalline Porous Organic Cage Supports

Liying Zhu; Suyun Zhang; Xin Chun Yang; Qiang Zhuang; Jian Ke Sun

doi:10.1002/smtd.202200591

Toward the Controlled Synthesis of Highly Dispersed Metal Clusters Enabled by Downsizing Crystalline Porous Organic Cage Supports

Liying Zhu
, Suyun Zhang
, Xin Chun Yang
, Qiang Zhuang
, Jian Ke Sun^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

The controlled synthesis of subnanometer-sized metal clusters (MCs) presents a fascinating prospect for the research of size-dependent properties. In this study, a facile approach by employing porous racemic organic cage crystals as supports for immobilizing a broad range of noble MCs (e.g., Ru, Ir, Rh) is reported. Downsizing the support to the nanoscale leads to resultant MCs with precisely controlled sizes < 0.7 nm. Such enhanced stabilization ability is a result of enhanced metal–support interactions as well as the nanoconfinement of organic cages in controlling the growth of MCs. Moreover, the obtained MCs display excellent catalytic performance in a series of liquid-phase reactions owing to a decrease in the diffusion resistance from the substrate to MCs immobilized by the nano-sized cage support.

Original language	English
Article number	2200591
Journal	Small Methods
Volume	6
Issue number	8
DOIs	https://doi.org/10.1002/smtd.202200591
Publication status	Published - 18 Aug 2022

Keywords

catalyses
metal clusters
porous organic cages
syntheses

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10.1002/smtd.202200591

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title = "Toward the Controlled Synthesis of Highly Dispersed Metal Clusters Enabled by Downsizing Crystalline Porous Organic Cage Supports",

abstract = "The controlled synthesis of subnanometer-sized metal clusters (MCs) presents a fascinating prospect for the research of size-dependent properties. In this study, a facile approach by employing porous racemic organic cage crystals as supports for immobilizing a broad range of noble MCs (e.g., Ru, Ir, Rh) is reported. Downsizing the support to the nanoscale leads to resultant MCs with precisely controlled sizes < 0.7 nm. Such enhanced stabilization ability is a result of enhanced metal–support interactions as well as the nanoconfinement of organic cages in controlling the growth of MCs. Moreover, the obtained MCs display excellent catalytic performance in a series of liquid-phase reactions owing to a decrease in the diffusion resistance from the substrate to MCs immobilized by the nano-sized cage support.",

keywords = "catalyses, metal clusters, porous organic cages, syntheses",

author = "Liying Zhu and Suyun Zhang and Yang, \{Xin Chun\} and Qiang Zhuang and Sun, \{Jian Ke\}",

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year = "2022",

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doi = "10.1002/smtd.202200591",

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AU - Zhu, Liying

AU - Zhang, Suyun

AU - Yang, Xin Chun

AU - Zhuang, Qiang

AU - Sun, Jian Ke

PY - 2022/8/18

Y1 - 2022/8/18

N2 - The controlled synthesis of subnanometer-sized metal clusters (MCs) presents a fascinating prospect for the research of size-dependent properties. In this study, a facile approach by employing porous racemic organic cage crystals as supports for immobilizing a broad range of noble MCs (e.g., Ru, Ir, Rh) is reported. Downsizing the support to the nanoscale leads to resultant MCs with precisely controlled sizes < 0.7 nm. Such enhanced stabilization ability is a result of enhanced metal–support interactions as well as the nanoconfinement of organic cages in controlling the growth of MCs. Moreover, the obtained MCs display excellent catalytic performance in a series of liquid-phase reactions owing to a decrease in the diffusion resistance from the substrate to MCs immobilized by the nano-sized cage support.

AB - The controlled synthesis of subnanometer-sized metal clusters (MCs) presents a fascinating prospect for the research of size-dependent properties. In this study, a facile approach by employing porous racemic organic cage crystals as supports for immobilizing a broad range of noble MCs (e.g., Ru, Ir, Rh) is reported. Downsizing the support to the nanoscale leads to resultant MCs with precisely controlled sizes < 0.7 nm. Such enhanced stabilization ability is a result of enhanced metal–support interactions as well as the nanoconfinement of organic cages in controlling the growth of MCs. Moreover, the obtained MCs display excellent catalytic performance in a series of liquid-phase reactions owing to a decrease in the diffusion resistance from the substrate to MCs immobilized by the nano-sized cage support.

KW - catalyses

KW - metal clusters

KW - porous organic cages

KW - syntheses

UR - https://www.scopus.com/pages/publications/85131949024

U2 - 10.1002/smtd.202200591

DO - 10.1002/smtd.202200591

M3 - Article

C2 - 35708206

AN - SCOPUS:85131949024

SN - 2366-9608

VL - 6

JO - Small Methods

JF - Small Methods

IS - 8

M1 - 2200591

ER -

Toward the Controlled Synthesis of Highly Dispersed Metal Clusters Enabled by Downsizing Crystalline Porous Organic Cage Supports

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Keywords

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