EVALUATING THE PRODUCTION POTENTIAL OF SIX (6) COMBRETUM SPECIES IN THE BIOMIMETIC SYNTHESIS OF SILVER NANOPARTICLES

Plant Science Today Pub Date : 2024-01-10 DOI:10.14719/pst.2489

Sheily Nneka Egonu, Uche Cyprian Okafor, Chinyere Chioma Isuosuo, Obiora Emmanuel Udoh, Chukwuma Kenechukwu Chukwuemeka, Emmanuel Gabriel Njoku, O. S. Udengwu

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Abstract

Existing research has shown that plants are best suited for the ecofriendly green synthesis of nanoparticles. This study reported novel findings on the biomimetic synthesis of silver nanoparticles using the aqueous leaf extract of six medicinal plant species in the genus, Combretum (C. paniculatum, C. dolichopetalum, C. platypterum, C racemosum, C. bauchiense, and C. demeusei). It was concerned with the characterization, phytochemical screening, antimicrobial and cytological evaluation of the synthesized silver nanoparticles (AgNPs). The novelty of this study lies in the creation of a nanoparticle production index (NPPI) of the species based on their crystalline sizes (in nm) and yield (in mg/l) of AgNPs. This NPPI can be defined as a measure of the quantity of particles produced with respect to the experimental species. The study also investigated whether these species would produce similar results since they belong to the same genus. It was observed that the smaller the size of the nanoparticles, the higher the production index. The highest production index was observed in C. paniculatum (18.75 nm, 144. 6 mg/l), and the least in C. demeusei (0 nm, 6.3 mg/l). The AgNPs were characterized using various standard analytical techniques. The X-ray diffraction analysis indicated that the species showed 2 theta values in the 40° range, all corresponding to miller indices of (200). The synthesized AgNPs showed varying but significant antimicrobial activities. Also, majority of the species showed a high NPPI. The study heralds a system, “phytonanotaxonomy”, the classification of plants of the same taxa based on their NPPI.

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评估六（6）种孔雀草在银纳米粒子生物模拟合成中的生产潜力

现有研究表明，植物最适合用于纳米粒子的生态友好型绿色合成。本研究报告了利用六种药用植物（Combretum 属（C. paniculatum、C. dolichopetalum、C. platypterum、C racemosum、C. bauchiense 和 C. demeusei）的水性叶提取物进行银纳米粒子生物模拟合成的新发现。研究内容包括合成的银纳米粒子（AgNPs）的特征描述、植物化学筛选、抗菌和细胞学评价。本研究的新颖之处在于根据物种的结晶尺寸（以纳米为单位）和 AgNPs 产量（以毫克/升为单位），建立了物种的纳米粒子生产指数（NPPI）。该 NPPI 可定义为衡量实验物种产生的颗粒数量。研究还调查了这些物种是否会产生类似的结果，因为它们属于同一属。研究发现，纳米颗粒的尺寸越小，生产指数越高。C. paniculatum 的生产指数最高（18.75 纳米，144.6 毫克/升），而 C. demeusei 的生产指数最低（0 纳米，6.3 毫克/升）。使用各种标准分析技术对 AgNPs 进行了表征。X 射线衍射分析表明，这些物种在 40° 范围内显示出 2 个 Theta 值，均与 (200) 的米勒指数相对应。合成的 AgNPs 显示出不同但显著的抗菌活性。此外，大多数种类显示出较高的 NPPI。这项研究预示着一种 "植物分类学 "系统的诞生，即根据 NPPI 对同一类群的植物进行分类。

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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Plant Science Today

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