Abstract
This report describes the systematic incorporation of gold nanoparticles (AuNPs) onto mesoporous TiO2 (MPT) particles without strong attractive forces to efficiently serve as reactive and recyclable catalysts in the homocoupling of arylboronic acid in green reaction conditions. Unlike using nonporous TiO2 particles and conventional SiO2 particles as supporting materials, the employment of MPT particles significantly improves the loading efficiency of AuNPs. The incorporated AuNPs are less than 10 nm in diameter, regardless of the amount of applied gold ions, and their surfaces, free from any modifiers, act as highly reactive catalytic sites to notably improve the yields in the homocoupling reaction. The overall physical properties of the AuNPs integrated onto the MPT particles are thoroughly examined as functions of the gold content, and their catalytic functions, including the rate of reaction, activation energy, and recyclability, are also evaluated. While the rate of reaction slightly increases with the improved loading efficiency of AuNPs, the apparent activation energies do not clearly show any correlation with the size or distribution of the AuNPs under our reaction conditions. Understanding the formation of these types of composite particles and their catalytic functions could lead to the development of highly practical, quasi-homogeneous catalysts in environmentally friendly reaction conditions.
Highlights
One attractive candidate is a colloidal form of nanoscale metal particles that can be prepared in green solution media and still show catalytic reactivity and recyclability [2,6,7,8]
AuNPsbeing beingmainly mainlyoutside outsideofofthe thenonporous nonporousTiO. This speculation was supported by the analysis shown above, demonstrating the inefficient speculation was supported by the AA analysis shown above, demonstrating the loading of the inefficient loading of the AuNPs
The deposition precipitation approach readily allowed for the systematic formation of small AuNPs onto the mesoporous TiO2 (MPT) particles
Summary
Gold nanoparticles (AuNPs) have shown ideal characteristics due to their biocompatible nature and well-established preparation strategies for diverse structures [2,9,10,11,12,13] In this sense, bare and surface-modified AuNPs have been tested as catalysts in numerous chemical reactions, including dye degradation, reduction, oxidation, and coupling reactions [1,5,8,9,12,14,15]. To fulfill the design of AuNP-based quasi-catalysts, readily available mesoporous TiO2 (MPT) particles from many supporting materials have been selected to serve as host substances because of their large surface areas, long-term stability, good dispersity, and easy preparation in green solvents [3,4,9,19,20,21].
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