A uncanny potential of plants for metal nanoparticles synthesis

Mohit Rawat, Jagpreet Singh, Harman Kaur
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Abstract

In this era, metal nanoparticles have captivated researchers because of their impending applications in numerous fields such as biomedical, catalysis, electronics etc.1–4 The properties of nanoparticles can be tuned by their size, synthesis process, reaction parameters, which make them the special candidate for every field. Generally, these nanoparticles are synthesized by two methods top down and bottom up. The top-down suggests the nanoparticles preparation by lithographic techniques, ball milling, etching, sputtering, etc. The most effective approach for the synthesis of nanoparticles is the bottom-up methods, in which nanoparticles are grown from simpler molecules and size or shape of nanoparticles can be controlled or modulated by changing the concentration of chemicals and reaction condition (temperature, pH etc.).5
植物合成金属纳米粒子的不可思议的潜力
在这个时代,金属纳米粒子因其在生物医学、催化、电子等众多领域的应用而吸引了研究人员。1 - 4纳米粒子的性质可以通过它们的大小、合成过程、反应参数来调节,这使它们成为每个领域的特殊候选者。一般来说,这些纳米粒子的合成有两种方法:自上而下和自下而上。自上而下建议采用光刻、球磨、蚀刻、溅射等技术制备纳米颗粒。最有效的合成纳米粒子的方法是自下而上的方法,其中纳米粒子从更简单的分子中生长,纳米粒子的大小或形状可以通过改变化学物质的浓度和反应条件(温度,pH等)来控制或调节
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