纳米级分子反应在微生物药物中的现代医学应用

IF 3.8 4区 工程技术 Q2 CHEMISTRY, MULTIDISCIPLINARY
Radjarejesri Shesayar, Amit Agarwal, S. N. Taqui, Yuvaraj Natarajan, S. Rustagi, Sweety Bharti, A. Trehan, K. Sivasubramanian, Moorthy Muruganandham, P. Velmurugan, N. Arumugam, A. Almansour, R. Kumar, S. Sivakumar
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引用次数: 1

摘要

我们周围的一切都是由原子和分子组成的。研究量子原子的特性是为了理解特定物体的行为。但随着研究的出现,人们发现有一个比分子大小还小的量。纳米尺度是一米的十亿分之一的几分之一。一个物体的原子大小为0.1纳米。由于原子是物质的基本组成部分,在纳米尺度上,人们可以把这些原子结合起来,创造出新的材料。所提出的模型显示了这些纳米级元素在现代医学应用中的特性。纳米尺度的物质研究是令人着迷的,因为它是原子聚集在一起的基本阶段。因此,通过在这个层次上操作材料,可以创建许多不同类型的对象。该模型对操作需求进行了计算,并对结果进行了预测。根据业务需求,提出了相应的建议。这将有助于医学研究人员根据微生物需求确定适当的治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanoscale molecular reactions in microbiological medicines in modern medical applications
Abstract Everything around us is made up of atoms and molecules. The properties of quantum atoms are sought to understand the behavior of a particular object. But with the advent of research, it was discovered that there is a quantity smaller than the molecular size. The nanoscale measures a fraction of a billionth of a meter. The atom of an object measures 0.1 nm. Since atoms are the building blocks of matter, at the nanoscale one can combine these atoms to create new materials. The proposed model displays the properties of these nano-scale elements in modern medical applications. The nano-scale research of matter is fascinating because it is the basic phase in which atoms are held together. Therefore, by manipulating material at this level, one can create many different types of objects. This proposed model calculates the operation requirements and expects the results. Based on the operational requirements, the proposed model provides the suggestions. This will be helpful for the medical researchers to identify the proper medical treatments based on the microbiological requirements.
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来源期刊
Green Processing and Synthesis
Green Processing and Synthesis CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL
CiteScore
6.70
自引率
9.30%
发文量
78
审稿时长
7 weeks
期刊介绍: Green Processing and Synthesis is a bimonthly, peer-reviewed journal that provides up-to-date research both on fundamental as well as applied aspects of innovative green process development and chemical synthesis, giving an appropriate share to industrial views. The contributions are cutting edge, high-impact, authoritative, and provide both pros and cons of potential technologies. Green Processing and Synthesis provides a platform for scientists and engineers, especially chemists and chemical engineers, but is also open for interdisciplinary research from other areas such as physics, materials science, or catalysis.
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