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首页> 外文期刊>Industrial Crops and Products >Phytofabrication characterization and comparative analysis of Ag nanoparticles by diverse biochemicals from Elaeocarpus ganitrus Roxb., Terminalia arjuna Roxb., Pseudotsuga menzietii, Prosopis spicigera, Ficus religiosa, Ocimum sanctum, Curcuma longa.
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Phytofabrication characterization and comparative analysis of Ag nanoparticles by diverse biochemicals from Elaeocarpus ganitrus Roxb., Terminalia arjuna Roxb., Pseudotsuga menzietii, Prosopis spicigera, Ficus religiosa, Ocimum sanctum, Curcuma longa.

机译:银纳米粒的植物制造表征和比较分析,包括多种不同的生化物质,分别来自:Elaeocarpus ganitrus Roxb。,Terminalia arjuna Roxb。,Pseudotsuga menzietii,Prosopis spicigera,Ficus religiosa,Ocimum sanctum,Curcuma longa。

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With the grace of biodiversity which mother nature has bestowed all over the world we have allocated to develop green, eco-friendly, silver nanoparticles of great economic value, critical importance and having high applicability, especially in the biomedical landscape. Extracts from a wide range of different plant materials from the botanical diversity, Elaeocarpus ganitrus Roxb. (Rudraksha beads), Terminalia arjuna Roxb. (bark, foliage and fruits of Arjuna plant), Pseudotsuga menzietii (foliage of Christmas tree), Prosopis spicigera (foliage of Shami), Ficus religiosa (foliage of Peepal or sacred Fig), Ocimum sanctum (foliage of Tulsi) and Curcuma longa (rhizome of turmeric), were used to mediate the formation of silver nanoparticles. The diversity and variation in phytochemicals also led to notable variation in morphological and physico-chemical nature of the silver nanostructures obtained through this extracellular biosynthesis. The similarity together with the variation has been comparatively analyzed and studied here. Various characterization techniques have been used for the assessment, like UV/visible spectroscopy, transmission electron microscopy, energy dispersive X-ray analysis and nanoparticle size analysis. Antimicrobial assay was also done using the phyto-fabricated nano silver pellets against Pseudomonas aeruginosa (gram negative), and Staphylococcus aureus (gram positive). The vitality of this study lies in the information it provides to the biomedical and nanotechnology based industries, for the development and outcome of value added products, by utilizing the wealth of global ecological resources, eliminating obnoxious and toxic reagents which are hazardous to be handled as well as to be applied.
机译:凭借大自然母亲在世界各地赋予的生物多样性的宽容,我们已分配用于开发绿色,生态友好的银纳米粒子,这些纳米粒子具有很高的经济价值,至关重要的意义并且具有很高的适用性,尤其是在生物医学领域。从植物多样性,Elaeocarpus ganitrus Roxb的多种不同植物材料中提取。 (Rudraksha珠子),榄仁终端。 (阿朱那植物的树皮,叶子和果实),假单胞菌(Pseudotsuga menzietii)(圣诞树的叶子),香豆Prosopis spicigera(沙米的叶子),菩提树(Peepal或神圣的无花果的叶子),圣殿(Tulsi的叶子)和姜黄(姜黄的根茎)被用来介导银纳米颗粒的形成。植物化学物质的多样性和变化也导致通过这种细胞外生物合成获得的银纳米结构的形态和物理化学性质发生显着变化。这里对相似性及其变化进行了比较分析和研究。各种表征技术已用于评估,例如紫外/可见光谱,透射电子显微镜,能量色散X射线分析和纳米粒度分析。还使用植物制造的纳米银微丸对铜绿假单胞菌(革兰氏阴性)和金黄色葡萄球菌(革兰氏阳性)进行了抗菌测定。这项研究的生命力在于,它通过利用丰富的全球生态资源,消除了有害的有毒和有毒的试剂,向基于生物医学和纳米技术的产业提供的信息,用于增值产品的开发和成果。以及将被应用。

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