Metal nanoparticles: ligand free approach towards coupling reactions

Current Chinese Science Pub Date : 2021-09-22 DOI:10.2174/2210298101666210922144232

S. K. Mengane, R. Wu, Liyun Ma, C. Panse, S. N. Vajekar, Aniruddha B Patil

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Abstract

Catalysis is the multidisciplinary field involving many areas of chemistry, notably in organometallic chemistry and materials science. It has great applications in synthesis of many industrially applicable compounds such as fuels and fine chemicals. The activity and selectivity are a key issue in catalysis that generally allied to high surface area. The current research activities mainly deal with the homogeneous and heterogeneous catalysis. Homogeneous and heterogeneous catalysis have certain drawbacks which restricts their application to great extent but have their own advantages. Hence, it has a predominant concern of current research to find out an alternate to overcome their drawbacks. Therefore, it is highly desirable to find a catalytic protocol that offers high selectivity and excellent product yield with quick and easy recovery. Along with their various applications as alternatives to conventional bulk materials nanomaterial have established its great role in different industrial and scientific applications. Nanocatalysis has emerged as new alternative to the conventional homogeneous and heterogeneous catalysis. The nanomaterials are responsible to enhance surface area of the catalyst, which ultimately increases the catalyst reactants contacts. In addition, it acts as robust material and has high surface area like heterogeneous catalysts. Insolubility of such nanomaterial in reaction medium makes them easily separable, hence, catalyst can be easily separate from the product. Hence, it has been proven that nanocatalysts behave like homogeneous as well as heterogeneous catalysts which work as a bridge between the conventional catalytic systems. Considering these merits; researchers has paid their attention towards applications of nanocatalyst in several organic reactions. This review article focused on the catalytic applications of metal nanoparticles (MNPs) such as Pd, Ag, Au, Cu, Pt in ligand free coupling reactions. In addition, it covers applications of bimetallic and multimetallic nanoparticles in ligand free coupling reactions.

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金属纳米颗粒:偶联反应的无配体方法

催化是一个多学科的领域，涉及化学的许多领域，特别是有机金属化学和材料科学。它在合成许多工业上适用的化合物如燃料和精细化学品方面有很大的应用。活性和选择性是催化的关键问题，通常与高表面积有关。目前的研究主要集中在均相催化和多相催化两方面。均相催化和多相催化都有一定的缺点，这在很大程度上制约了它们的应用，但它们又有各自的优点。因此，寻找一种替代方法来克服它们的缺点是当前研究的主要问题。因此，寻找一种高选择性、高收率、快速、容易回收的催化方案是迫切需要的。随着纳米材料作为传统块状材料的替代品的广泛应用，它在不同的工业和科学应用中发挥了巨大的作用。纳米催化已成为传统均相和多相催化的新选择。纳米材料负责增加催化剂的表面积，最终增加催化剂反应物的接触。此外，它是一种坚固的材料，具有像多相催化剂一样的高表面积。这种纳米材料在反应介质中的不溶性使其易于分离，从而使催化剂易于从产物中分离出来。因此，已经证明纳米催化剂的行为既可以是均相催化剂，也可以是非均相催化剂，它是传统催化系统之间的桥梁。考虑到这些优点;纳米催化剂在几种有机反应中的应用已经引起了研究人员的关注。本文综述了钯、银、金、铜、铂等金属纳米粒子在无配体偶联反应中的催化应用。此外，它还涵盖了双金属和多金属纳米颗粒在无配体偶联反应中的应用。

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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Current Chinese Science

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