A Review on Synthesis Methods of Materials Science and Nanotechnology

Avadhesh Yadav
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Abstract

Materials science is a fast developing field of research in which a lot of advancements have been reported in few decades. The progress in materials science is essential due to its wide range of applications in solid state fuel cells, display materials, solar cells, energy storage devices, automotive sectors, electronics and environment, mechanical, medical & aerospace industries. Doping and substitutions in host materials are excellent ways of changing the properties of any materials. There are two main forms of materials, thin film and bulk, which are used in research. These two forms of materials are synthesized by two basic approaches, named as top-down and bottom-up. Bottom-up and top-down approaches are comprised of several synthesis methods, e.g., solid state reaction method, hydrothermal method, co-precipitation method, sol gel method, auto-combustion method, melt quench method, evaporation method, sputtering method, pulse laser deposition method, spin coating method and spray pyrolysis method. Each synthesis method has its unique procedure as well as merits and demerits. The solid state reaction route is one of the simplest synthesis method, which requires heating of the materials which were grounded for homogeneous mixing of the various oxide ingredients. The bulk and thin films at low reaction temperatures were prepared by sol-gel synthesis route which provides the high purity products. Co-precipitation method provides homogenous particle size which is a very energy efficient method. Thus, the synthesis method is an essential factor for materials science and nanotechnology research. The present article is an attempt to review the synthesis methods and their merits or demerits.
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材料科学与纳米技术合成方法综述
材料科学是一个快速发展的研究领域,几十年来取得了许多进展。由于材料科学在固态燃料电池、显示材料、太阳能电池、储能设备、汽车行业、电子和环境、机械、医疗和航空航天工业中的广泛应用,材料科学的进步至关重要。在主材料中进行掺杂和替代是改变任何材料特性的绝佳方法。用于研究的材料主要有两种形式:薄膜和块状。这两种形式的材料通过两种基本方法合成,即自上而下和自下而上。自下而上和自上而下的方法包括多种合成方法,如固态反应法、水热法、共沉淀法、溶胶凝胶法、自燃法、熔淬法、蒸发法、溅射法、脉冲激光沉积法、旋镀法和喷雾热解法。每种合成方法都有其独特的程序和优缺点。固态反应路线是最简单的合成方法之一,它需要加热研磨好的材料,使各种氧化物成分均匀混合。通过溶胶-凝胶合成路线,可以在低反应温度下制备出高纯度的块状和薄膜。共沉淀法提供了均匀的粒度,是一种非常节能的方法。因此,合成方法是材料科学和纳米技术研究的重要因素。本文试图综述各种合成方法及其优缺点。
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