Microwave Synthesizer: A Biomedical Engineering Technique With Advanced Applications

Jyoti Singh, Pragati Silakari, Shaveta Sharma
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引用次数: 0

Abstract

In current times, all major discoveries are believed to occur at the intersections of various fields of science. In such a manner, perhaps the main creative region joining material science, biology and medication is the utilization of microwave advances. In such a way, the motivation behind this work was to explain the useful conceivable outcomes of diagnostic, analytical, synthetic and therapeutic microwave advancements. The related exploration and uses of microwave (MW) science are the arising methodologies of modern energy-based green science, on a nuclear and atomic self-aggregating level. As microwaves develop the synthetic response, they have the potential to greatly impact the chemical reaction. This technology has advanced its utilization in the field of research technology, chemical synthesis, diagnostic chemistry, wastewater treatment, and material science. This article cumulates the various available microwave synthesizers in the market with their pros and cons alongside their wide applications.
微波合成器:一种具有先进应用价值的生物医学工程技术
在当今时代,人们认为所有的重大发现都发生在各个科学领域的交叉点。这样看来,材料科学、生物学和医学的主要创新领域可能是微波技术的应用。通过这种方式,这项工作背后的动机是解释诊断,分析,合成和治疗微波进步的有用的可想象的结果。微波科学的相关探索和应用是基于核能和原子自聚集水平的现代能源绿色科学的新兴方法。当微波发展合成反应时,它们有可能极大地影响化学反应。该技术在研究技术、化学合成、诊断化学、废水处理、材料科学等领域得到了广泛的应用。本文收集了市场上各种可用的微波合成器及其优点和缺点以及它们的广泛应用。
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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来源期刊
Current Materials Science
Current Materials Science Materials Science-Materials Science (all)
CiteScore
0.80
自引率
0.00%
发文量
38
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