Silver Nanoparticles: An Eco-Friendly Approach for Mosquito Control

A. Hajra, N. Mondal
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引用次数: 11

Abstract

Size of silver nanoparticles ranges from 1 to 100 nm. The unique properties of silver nanoparticles (AgNP) help in molecular diagnostics, several types of treatments and research purposes. The major methods used for silver nanoparticle synthesis are the physical and chemical methods. Silver nanoparticles can be produced by both physical and chemical methods. To overcome the problems faced by the huge expenses of physical and chemical methods and toxic substances absorbed onto them, biological method to synthesize AgNP is a suitable alternative. Silver nanoparticles have been used potentially to control larval stages of mosquitoes in the experimental conditions. Perhaps due to insertion of nanoparticles in cutical layer of larvae. Successful application of this may occur in near future to check mosquito borne diseases. The various modes of synthesis and application along with successive progress are discussed in this paper. The main focus of this review paper on effective and efficient synthesis of silver nanoparticles from bio-origin and exploring their various prospective applications towards mosquito larvicidal activity. Moreover, it also vividly described about the bio-molecules which directly reduced silver ions and probable mechanism of AgNPs interaction with mosquito larvae.
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纳米银:一种生态友好的蚊虫控制方法
银纳米颗粒的尺寸范围从1到100纳米。银纳米颗粒(AgNP)的独特性质有助于分子诊断、几种类型的治疗和研究目的。纳米银的合成方法主要有物理法和化学法。纳米银可以通过物理和化学两种方法制备。为了克服物理和化学方法费用巨大以及吸附有毒物质的问题,生物方法合成AgNP是一种合适的替代方法。在实验条件下,银纳米颗粒有可能用于控制蚊子的幼虫阶段。可能是由于纳米颗粒在幼虫表皮层的插入。在不久的将来,这种方法可能会成功应用于防治蚊媒疾病。本文讨论了各种合成方法及其应用的进展。本文主要综述了生物源性纳米银的高效合成及其在灭蚊幼虫方面的应用前景。此外,还生动地描述了直接还原银离子的生物分子以及AgNPs与蚊子幼虫相互作用的可能机制。
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