氧化锌纳米颗粒:合成策略、表征及应用综述

V. L. Ranganatha, K. Nithin, S. Khanum, G. Nagaraju, C. Mallikarjunaswamy
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引用次数: 13

摘要

独特的尺寸相关材料特性工程,以及并行的技术进步,促进了有效的处理和管理,都为纳米结构材料的研究升级设定了节奏。特别是,半导体金属氧化物纳米颗粒(NPs)由于其广泛的终端应用,从抗菌到药物输送,从传感器到能量存储等等,已经引起了重大的科学兴趣。氧化锌(ZnO)具有激子结合能大、直接带隙吸收和固有结构缺陷诱导激子发射等特点,是一类初级宽带隙半导体。此外,氧化锌NPs还表现出粒径和形貌相关的束缚,这可能会导致全新的材料性能。在此,我们尝试对合成条件下的材料性质调谐以及ZnO纳米粒子的相关应用进行了详细的综述。此外,本文还介绍了成功解析金属氧化物NPs结构所采用的表征工具。独特的尺寸相关材料特性工程,以及并行的技术进步,促进了有效的处理和管理,都为纳米结构材料的研究升级设定了节奏。特别是,半导体金属氧化物纳米颗粒(NPs)由于其广泛的终端应用,从抗菌到药物输送,从传感器到能量存储等等,已经引起了重大的科学兴趣。氧化锌(ZnO)具有激子结合能大、直接带隙吸收和固有结构缺陷诱导激子发射等特点,是一类初级宽带隙半导体。此外,氧化锌NPs还表现出粒径和形貌相关的束缚,这可能会导致全新的材料性能。在此,我们尝试对合成条件下的材料性质调谐以及ZnO纳米粒子的相关应用进行了详细的综述。此外,这篇文章还揭示了……
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Zinc oxide nanoparticles: A significant review on synthetic strategies, characterization and applications
The unique size-dependent material property engineering, together with parallel technological advancements, that facilitates effective handling and management, have all set the tempo for escalating research on nanostructured materials. In particular, semiconductor metal oxide nanoparticles (NPs) have attracted significant scientific interest, owing to their versatile end applications ranging from antimicrobial to drug delivery, sensors to energy stores and many more. Zinc oxide (ZnO) is one such primary wide band gap semiconductor with large exciton binding energies, direct band gap absorption and intrinsic structural defects induced exciton emission. Besides, ZnO NPs are also known to exhibit particle size and morphology dependent confinements, which may often induce entirely new material properties. Herein, an attempt is made to present a detailed review of the synthetic condition dependent material property tuning and hence, related applications of ZnO NPs. Besides, the article also sheds light on characterization tools adopted towards the successful structural elucidation of metal oxide NPs.The unique size-dependent material property engineering, together with parallel technological advancements, that facilitates effective handling and management, have all set the tempo for escalating research on nanostructured materials. In particular, semiconductor metal oxide nanoparticles (NPs) have attracted significant scientific interest, owing to their versatile end applications ranging from antimicrobial to drug delivery, sensors to energy stores and many more. Zinc oxide (ZnO) is one such primary wide band gap semiconductor with large exciton binding energies, direct band gap absorption and intrinsic structural defects induced exciton emission. Besides, ZnO NPs are also known to exhibit particle size and morphology dependent confinements, which may often induce entirely new material properties. Herein, an attempt is made to present a detailed review of the synthetic condition dependent material property tuning and hence, related applications of ZnO NPs. Besides, the article also sheds light on char...
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