Isolation, Architecture of Ag8-Cluster Modified Polyoxometalate for Water Reduction into Hydrogen Driven by Visible Light

IF 4.3 2区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Pub Date : 2025-06-03 DOI:10.1021/acs.inorgchem.5c01055

Ling-Tong Xu, Yan Zhao, Pin-Fang Yan, Hua Mei, Yan Xu

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Abstract

To alleviate the shortage of oil resources, photocatalytic water decomposition into hydrogen (H₂) is an efficient method to produce clean and green energy with the potential to replace oil in many fields. Under hydrothermal conditions, two Strandberg-type phosphomolybdates were synthesized, formulated as [Ag₄(C₈H₆N₂)₆H₂O][H₂P₂Mo₅O₂₃]·1H₂O (1) and [Ag(C₄H₄N₂)]₈[H₂P₂Mo₅O₂₃]₂·11H₂O (2), based on MoO₃, Ag(NO₃)₃, H₃PO₄ and two N-containing organic ligands (quinoxaline and pyridazine). The single-crystal structure analysis indicates that compound 1 showed one-dimensional chain constructed from [Ag₃(C₈H₆N₂)₄]³⁺, [Ag(C₈H₆N₂)₂]⁺ cations and [H₂P₂Mo₅O₂₃]^4– anions, while compound 2 features a two-dimensional-layered structure formed by interesting [Ag(C₄H₄N₂)O]₈ clusters connecting [H₂P₂Mo₅O₂₃]^4– anions. Under visible light irradiation, both compounds showed excellent performance in hydrogen production. After 8 h of visible light irradiation, the H₂ yields were 243.6 (1) and 401.1 (2) μmol, which have wide application prospects in the photocatalysis field. Meanwhile, comparative experiments showed that the Ag⁺ ions significantly promoted hydrogen production under visible light, serving as a crucial active center in the photocatalytic water decomposition into the hydrogen process.

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ag8簇修饰多金属氧酸盐的分离、结构及可见光驱动水还原成氢的研究

为了缓解石油资源的短缺，光催化水分解制氢（H2）是一种生产清洁绿色能源的有效方法，在许多领域具有替代石油的潜力。以MoO3、Ag(NO3)3、H3PO4和两种含氮有机配体（喹啉和吡啶）为原料，在水热条件下合成了两种strandberg型磷钼酸盐，分别为[Ag4(C8H6N2)6H2O][H2P2Mo5O23]·1H2O(1)和[Ag(C4H4N2)]8[H2P2Mo5O23]2·11H2O(2)。单晶结构分析表明，化合物1为由[Ag3(C8H6N2)4]3+、[Ag(C8H6N2)2]+阳离子和[H2P2Mo5O23]4 -阴离子组成的一维链，而化合物2为由[Ag(C4H4N2)O]8簇连接[H2P2Mo5O23]4 -阴离子组成的二维层状结构。在可见光照射下，两种化合物均表现出优异的产氢性能。经过8 h的可见光照射，H2产率分别为243.6(1)和401.1 (2)μmol，在光催化领域具有广阔的应用前景。同时，对比实验表明，Ag+离子在可见光下显著促进制氢，是光催化水分解制氢过程中至关重要的活性中心。

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来源期刊

Inorganic Chemistry 化学-无机化学与核化学

CiteScore

7.60

自引率

13.00%

发文量

1960

审稿时长

1.9 months

期刊介绍： Inorganic Chemistry publishes fundamental studies in all phases of inorganic chemistry. Coverage includes experimental and theoretical reports on quantitative studies of structure and thermodynamics, kinetics, mechanisms of inorganic reactions, bioinorganic chemistry, and relevant aspects of organometallic chemistry, solid-state phenomena, and chemical bonding theory. Emphasis is placed on the synthesis, structure, thermodynamics, reactivity, spectroscopy, and bonding properties of significant new and known compounds.