A REVIEW ON TEMPLATE SYNTHESIS OF NANOPARTICLE

International Journal of Pharmacy and Pharmaceutical Sciences Pub Date : 2024-05-01 DOI:10.22159/ijpps.2024v16i5.50661

Sakshi Gharat, Aishwarya Ghadge, Swapnil D. Phalak, Vishal Bodke, Aditi Gavand, Darshana Ganvir, Deepti Gaikwad

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Abstract

In recent years, there has been a rise in interest in the development of novel drug delivery systems that utilize nanoparticles. In terms of high stability, high specificity, high drug-carrying capacity, controlled release, the ability to use different routes of administration, and the ability to deliver both hydrophilic and hydrophobic drug molecules, nanoparticles can offer significant advantages over conventional drug delivery. We try to provide a detailed overview of template techniques designed for nanomaterial production. The pores and channels in the nanoporous “template” structures are used to generate the desired nanomaterials in template synthesis. Because this process has advantages over other methods, like allowing precise control over their size, shape, and structure, it is commonly used to generate nanoparticles. The first half of the review provides information on various template preparation processes. Templates are classified as “hard” or “soft” templates. Soft templates are often fluid-like, whereas hard templates are typically solid-state materials with distinct morphology and structure. This study discusses the effect of templates on morphologies and methodology and compares hard and soft templates.

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纳米粒子模板合成综述

近年来，人们对利用纳米颗粒开发新型给药系统的兴趣日益浓厚。纳米颗粒具有高稳定性、高特异性、高载药能力、可控释放、可采用不同的给药途径以及既能给亲水性药物分子又能给疏水性药物分子等特点，与传统给药方式相比具有显著优势。我们试图详细介绍为生产纳米材料而设计的模板技术。在模板合成中，纳米多孔 "模板 "结构中的孔隙和通道被用来生成所需的纳米材料。与其他方法相比，这种工艺具有优势，例如可以精确控制其尺寸、形状和结构，因此常用于生成纳米粒子。综述的前半部分介绍了各种模板制备工艺。模板分为 "硬 "模板和 "软 "模板。软模板通常是流体状的，而硬模板通常是具有独特形态和结构的固态材料。本研究讨论了模板对形态和方法的影响，并对硬模板和软模板进行了比较。

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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International Journal of Pharmacy and Pharmaceutical Sciences

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