纳米尺度阴离子金属氧化物簇的空前卤化物离子结合和催化活性。

Unprecedented Halide-Ion Binding and Catalytic Activity of Nanoscale Anionic Metal Oxide Clusters.

机构信息

South China Advanced Institute for Soft Matter Science and Technology & State Key Laboratory of Luminescent Materials and Devices, South China University of Technology, Guangzhou, 510640, P. R. China.

Department of Chemistry, Tsinghua University, Beijing, 100084, P. R. China.

出版信息

Chempluschem. 2019 Nov;84(11):1668-1672. doi: 10.1002/cplu.201900307. Epub 2019 Jul 23.

DOI:10.1002/cplu.201900307

PMID:31943875

Abstract

One halide ion (X ) can bind on the surface of nanoscale Anderson-type polyoxometalate (POMs) clusters [(n-C H ) N] {AlMo O (OH) [(OCH ) CCH ]}, and form stable complexes in solution with binding constant K=1.53×10 . Single-crystal structural analysis showed that this binding behavior occurs through multiple hydrogen bonding between X and three hydroxy groups on the uncapped side of the cluster. This supramolecular interaction in the cluster systems means that their catalytic activities, evaluated from the oxidation of alcohols to aldehydes, can be switched upon the introduction of halide ions and water molecules. The halide ions work as inhibitors by blocking the active sites of the clusters while they can be re-activated by the addition of water.

摘要

一价卤离子 (X) 可以结合在纳米级安德森型多金属氧酸盐 (POMs) 簇 [(n-C H ) N] {AlMo O (OH) [(OCH ) CCH ]} 的表面上，并在溶液中形成稳定的配合物，其结合常数 K=1.53×10。单晶结构分析表明，这种结合行为是通过 X 与簇未封端侧的三个羟基之间的多个氢键发生的。在簇系统中的这种超分子相互作用意味着它们的催化活性，可通过评估醇到醛的氧化反应来衡量，可以在引入卤离子和水分子时发生切换。卤离子作为抑制剂起作用，通过阻止簇的活性位点来发挥作用，而它们可以通过添加水重新激活。

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纳米尺度阴离子金属氧化物簇的空前卤化物离子结合和催化活性。

Unprecedented Halide-Ion Binding and Catalytic Activity of Nanoscale Anionic Metal Oxide Clusters.

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