Recent advances in PVP-assisted thermal treatment: Impact on nanostructure properties, potential applications, challenges, and future perspectives

IF 4.4 2区 物理与天体物理 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Naif Mohammed Al-Hada , Shicai Xu , A.M. Al-Ghaili , Bandar Ali Al-Asbahi , Hussein Baqiah , Jianlei Yang , M.N. Azlan , Qiang Li
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引用次数: 0

Abstract

Nanotechnology has garnered significant attention for its wide-ranging applications in biomedicine, energy, and environmental science. The synthesis of nanomaterials with specific properties is crucial for advancing these fields. Among various methods, thermal treatment has emerged as a promising technique for producing diverse nanostructures. However, thermal treatment alone often leads to larger particle sizes and poor uniformity, limiting the practical applications of the resulting nanomaterials. Incorporating polyvinylpyrrolidone (PVP) as a capping agent addresses these challenges by reducing particle size and enhancing uniformity. Optimizing parameters such as PVP concentration, molecular weight, temperature, and precursor ratios is key to improving the performance of the PVP-assisted thermal treatment method. This paper reviews recent progress in synthesizing nanostructures using PVP-assisted thermal treatment, including key characterization techniques. It also examines the applications of these nanostructures in fields such as biomedicine, energy, and environmental science. The review identifies challenges in the synthesis and characterization process, while also outlining potential future directions for enhancing this method. The insights provided will be valuable to researchers working in nanotechnology and related disciplines.
PVP 辅助热处理的最新进展:对纳米结构特性的影响、潜在应用、挑战和未来展望
纳米技术因其在生物医学、能源和环境科学领域的广泛应用而备受关注。合成具有特定性能的纳米材料对于推动这些领域的发展至关重要。在各种方法中,热处理已成为生产各种纳米结构的一种有前途的技术。然而,单纯的热处理往往会导致颗粒尺寸变大、均匀性变差,从而限制了所制备纳米材料的实际应用。加入聚乙烯吡咯烷酮(PVP)作为封端剂可以减小颗粒尺寸并提高均匀性,从而解决这些难题。优化 PVP 浓度、分子量、温度和前驱体比例等参数是提高 PVP 辅助热处理方法性能的关键。本文回顾了利用 PVP 辅助热处理合成纳米结构的最新进展,包括关键的表征技术。本文还探讨了这些纳米结构在生物医学、能源和环境科学等领域的应用。综述指出了合成和表征过程中面临的挑战,同时也概述了未来改进这种方法的潜在方向。所提供的见解对纳米技术和相关学科的研究人员很有价值。
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来源期刊
Results in Physics
Results in Physics MATERIALS SCIENCE, MULTIDISCIPLINARYPHYSIC-PHYSICS, MULTIDISCIPLINARY
CiteScore
8.70
自引率
9.40%
发文量
754
审稿时长
50 days
期刊介绍: Results in Physics is an open access journal offering authors the opportunity to publish in all fundamental and interdisciplinary areas of physics, materials science, and applied physics. Papers of a theoretical, computational, and experimental nature are all welcome. Results in Physics accepts papers that are scientifically sound, technically correct and provide valuable new knowledge to the physics community. Topics such as three-dimensional flow and magnetohydrodynamics are not within the scope of Results in Physics. Results in Physics welcomes three types of papers: 1. Full research papers 2. Microarticles: very short papers, no longer than two pages. They may consist of a single, but well-described piece of information, such as: - Data and/or a plot plus a description - Description of a new method or instrumentation - Negative results - Concept or design study 3. Letters to the Editor: Letters discussing a recent article published in Results in Physics are welcome. These are objective, constructive, or educational critiques of papers published in Results in Physics. Accepted letters will be sent to the author of the original paper for a response. Each letter and response is published together. Letters should be received within 8 weeks of the article''s publication. They should not exceed 750 words of text and 10 references.
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