Biogenic Synthesis of Silver Nanoparticles Using Guava (Psidium guajava) Leaf Extract and Its Larvicidal Action against Anopheles gambiae

A. A. Ntoumba, F. E. Meva, W. Ekoko, L. Foko, Etoile Odette Ngo Hondt, Carsten Schlüsener, Bastian Moll, G. Loé, Philippe Belle Ebanda Kedi, Jean Yves Sikapi Fouda, C. Janiak, L. Lehman
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引用次数: 12

Abstract

The progress in the field of nanotechnology has contributed to the development of tools for combating the most critical problems in developing countries. The requirements that such tools should meet are low-cost and resource settings, environmental protection, ease of use, and availability. The use of plant properties for the generation of nanoparticles (NPs), which serve as bioinsecticides to combat the plasticity and resistance of mosquitoes and parasites, is considered possible. Here, we report for the first time the larvicidal activity of silver (Ag) NPs (AgNPs) synthesized from Psidium guajava (P. guajava) extract, which targets the 4th instar larvae of Anopheles gambiae. Concentrations of AgNPs between 0 and 200 ppm were used and their LC50 at 24 h and 48 h were determined as 19.55 ppm and 8.737 ppm, respectively. The AgNPs were stable and highly effective against the larvae of A. gambiae and thereby we anticipate that they can be used to combat vector-borne diseases in developing countries.
番石榴叶提取物生物合成纳米银及其对冈比亚按蚊的杀幼虫作用
纳米技术领域的进步促进了发展中国家解决最关键问题的工具的开发。这些工具应该满足的要求是低成本和资源设置、环境保护、易于使用和可用性。利用植物特性制造纳米颗粒(NPs)被认为是可能的,纳米颗粒可以作为生物杀虫剂来对抗蚊子和寄生虫的可塑性和抗性。本文首次报道了番石榴(P. guajava)提取物合成的银(Ag) NPs (AgNPs)对冈比亚按蚊4龄幼虫的杀灭活性。AgNPs的浓度为0 ~ 200 ppm,测定其24 h和48 h的LC50分别为19.55 ppm和8.737 ppm。AgNPs对冈比亚疟蚊幼虫稳定且非常有效,因此我们预计它们可用于防治发展中国家的病媒传播疾病。
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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