Sprayed Microdroplets Architect a Polyoxometalate Framework

Angewandte Chemie Pub Date : 2025-04-08 DOI:10.1002/ange.202424745

Abhijit Nandy, Gajiram Murmu, Anitesh Rana, Sumit Saha, Shibdas Banerjee

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Abstract

Although many past attempts have utilized micron-sized droplets for breaking and forming organic bonds, their potential in promoting inorganic bond formation reactions remains largely unexplored. We report a promising approach to synthesizing a tungsten-based Lindqvist-type polyoxometalate (POM) in various organic and aqueous microdroplets under ambient conditions, eliminating the traditional need for hazardous or corrosive chemicals and high-boiling solvents. When aerosolized, a simple tungstate (WO₄²⁻) solution spontaneously produces a metal-oxo cluster (W₆O₁₉²⁻), a valuable POM with broad applications, achieving yields up to 99% in less than a millisecond. Mass spectrometric detection of reactive intermediates unraveled the nucleation mechanism in microdroplets, leading to the formation of polyoxotungstate, which was then further characterized by X-ray crystallography. Empirical observations collectively suggest that rapid solvent evaporation and subsequent enrichment of reactants in the confined volume of microdroplets likely facilitate the growth of the POM through partial solvation at the air–liquid interface.

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喷涂微滴构建多金属氧酸盐框架

尽管过去的许多尝试都利用微米级的液滴来破坏和形成有机键，但它们在促进无机键形成反应方面的潜力仍然很大程度上未被探索。我们报告了一种在环境条件下在各种有机和水微滴中合成钨基lindqvist型多金属氧酸盐（POM）的有前途的方法，消除了传统的对危险或腐蚀性化学品和高沸点溶剂的需求。当雾化时，简单的钨酸盐（WO42−）溶液会自发地产生金属氧簇（W6O192−），这是一种有价值的POM，具有广泛的应用，在不到一毫秒的时间内达到99%的收率。反应中间体的质谱检测揭示了微滴中的成核机制，导致多氧化钨酸盐的形成，然后通过x射线晶体学进一步表征。经验观察共同表明，在微滴的有限体积内，快速的溶剂蒸发和随后的反应物富集可能通过在气液界面的部分溶剂化促进了POM的生长。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Angewandte Chemie 化学科学, 有机化学, 有机合成

自引率

0.00%

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审稿时长

1 months