Abstract

Schiff bases are chemical compounds obtained via the conjugation reaction of ketones or aldehydes with amines. Schiff bases and its compounds are widely used in industries and also have significant pharmacological efficiencies including antitumor, antiviral, antibacterial, antifungal, anti-cancer and DNA binding. The most of these compounds exhibit outstanding catalytic activities. Nano-Schiff bases are deemed to be the most multitasking ligands as they form complexes with the metal atoms. They are called facilitating ligands because these compounds can be prepared easily by condensation. The complexes of transition metals are the essential metal complexes of these compounds. Nano-Schiff bases and its metal complexes are highly helpful in scavenging the free radicals and thus to balance living bodies from the hostile impacts of these radicals. It overcomes an independent sphere of research in chemistry due to the recent amazed research on Schiff bases. Although these compounds are widely experimented, the pharmacological activities with catalytic, electrochemical, optical and crystalline properties of these compounds have to need vigorous investigation. However, we demonstrate various synthesis mechanisms of nano-Schiff bases and the essential activities of metal complexes. The present systematic overview will intend to make a profile of catalytic, electrochemical, optical, crystalline properties and pharmacological activities of metal complexes containing nano Schiff bases.

中文翻译：

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纳米席夫碱配合物的最新观点：合成、催化、电化学、光学、结晶特征和药理活性

摘要

席夫碱是通过酮或醛与胺的共轭反应。席夫碱及其化合物广泛应用于工业，还具有显着的药理功效，包括抗肿瘤、抗病毒、抗菌、抗真菌、抗癌和DNA结合。这些化合物中的大多数表现出优异的催化活性。纳米席夫碱被认为是最多任务的配体，因为它们与金属原子形成络合物。它们被称为促进配体，因为这些化合物可以很容易地通过缩合制备。过渡金属的配合物是这些化合物必不可少的金属配合物。纳米席夫碱及其金属配合物非常有助于清除自由基，从而平衡生物体免受这些自由基的有害影响。由于最近对席夫碱的惊人研究，它克服了化学研究的一个独立领域。尽管这些化合物已进行了广泛的实验，但这些化合物的催化、电化学、光学和结晶性质的药理活性仍需要大力研究。然而，我们展示了纳米席夫碱的各种合成机制和金属配合物的基本活性。本系统综述旨在概述含有纳米席夫碱的金属配合物的催化、电化学、光学、结晶特性和药理活性 这些化合物的光学和结晶特性需要进行深入研究。然而，我们展示了纳米席夫碱的各种合成机制和金属配合物的基本活性。本系统综述旨在概述含有纳米席夫碱的金属配合物的催化、电化学、光学、结晶特性和药理活性 这些化合物的光学和结晶特性需要进行深入研究。然而，我们展示了纳米席夫碱的各种合成机制和金属配合物的基本活性。本系统综述旨在概述含有纳米席夫碱的金属配合物的催化、电化学、光学、结晶特性和药理活性.