Recent innovations in the technology and applications of low-dimensional CuO nanostructures for sensing, energy and catalysis

纳米结构 纳米技术 制作 材料科学 纳米材料 氧化物 氧化铜 医学 病理 冶金 替代医学
作者
Oleg Baranov,Kateryna Bazaka,Rodrigo Perito Cardoso,C. ̃Riccardi,H. Eduardo Roman,M. Mandhakini,Shuyan Xu,Uroš Cvelbar,Igor Levchenko
出处
期刊:Nanoscale horizons [Royal Society of Chemistry]
卷期号:8 (5): 568-602 被引量:18
标识
DOI:10.1039/d2nh00546h
摘要

Low-dimensional copper oxide nanostructures are very promising building blocks for various functional materials targeting high-demanded applications, including energy harvesting and transformation systems, sensing and catalysis. Featuring a very high surface-to-volume ratio and high chemical reactivity, these materials have attracted wide interest from researchers. Currently, extensive research on the fabrication and applications of copper oxide nanostructures ensures the fast progression of this technology. In this article we briefly outline some of the most recent, mostly within the past two years, innovations in well-established fabrication technologies, including oxygen plasma-based methods, self-assembly and electric-field assisted growth, electrospinning and thermal oxidation approaches. Recent progress in several key types of leading-edge applications of CuO nanostructures, mostly for energy, sensing and catalysis, is also reviewed. Besides, we briefly outline and stress novel insights into the effect of various process parameters on the growth of low-dimensional copper oxide nanostructures, such as the heating rate, oxygen flow, and roughness of the substrates. These insights play a key role in establishing links between the structure, properties and performance of the nanomaterials, as well as finding the cost-and-benefit balance for techniques that are capable of fabricating low-dimensional CuO with the desired properties and facilitating their integration into more intricate material architectures and devices without the loss of original properties and function.
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