形貌控制的大气压等离子体合成压电传感器用氧化锌纳米颗粒

IF 3.674 4区 工程技术 Q1 Engineering
A. M. Schwan, S. Chwatal, C. Hendler, D. Kopp, J. M. Lackner, R. Kaindl, M. Tscherner, M. Zirkl, P. Angerer, B. Friessnegger, S. Augl, D. Heim, A. Hinterer, M. Stummer, W. Waldhauser
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引用次数: 0

摘要

氧化锌纳米颗粒,特别是那些具有高纵横比的纳米颗粒(即纳米棒和纳米线),由于其具有压电、光催化和抗菌性,在许多应用中都引起了极大的兴趣。在本研究中,开发了一种等离子体飞行合成方法,可以控制氧化锌纳米颗粒的粒径和形状。在大气压下运行的直流热等离子体反应器中,注入等离子体射流中的锌粉被熔化、蒸发和氧化,这允许生长氧化锌纳米颗粒。颗粒光谱范围从小纳米球到纳米棒、纳米线和多周期纳米颗粒,如四足动物。研究了氧速率和等离子体功率(与放电电流相关)对颗粒形貌的影响,并研究了纳米线状颗粒作为压电传感器材料的可行性。压电测试传感器配备了等离子体合成的氧化锌纳米线,在极化后成功地响应了机械刺激。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Morphology-controlled atmospheric pressure plasma synthesis of zinc oxide nanoparticles for piezoelectric sensors

Morphology-controlled atmospheric pressure plasma synthesis of zinc oxide nanoparticles for piezoelectric sensors

Zinc oxide nanoparticles, especially those with a high aspect ratio (i. e., nanorods and nanowires), are of great interest for many applications as they are piezoelectric, photocatalytic and antimicrobial. In the present study, a plasma flight-thru synthesis method was developed that allows controlling the particle size and shape of the zinc oxide nanoparticles. In a direct current thermal plasma reactor operated at atmospheric pressure, zinc powder injected into the plasma jet was molten, vaporized and oxidized, which allowed growing zinc oxide nanoparticles. The particle spectrum ranged from small nanospheres to nanorods, nanowires and multipodic nanoparticles such as tetrapods. The influence of the oxygen rate and the plasma power (correlated to the discharge current) on the particle morphology was studied, and the feasibility of the nanowire-like particles as piezoelectric sensor material was investigated. Piezoelectric test sensors, equipped with the plasma-synthesized zinc oxide nanowires, successfully responded to mechanical stimulation after poling.

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来源期刊
Applied Nanoscience
Applied Nanoscience Materials Science-Materials Science (miscellaneous)
CiteScore
7.10
自引率
0.00%
发文量
430
期刊介绍: Applied Nanoscience is a hybrid journal that publishes original articles about state of the art nanoscience and the application of emerging nanotechnologies to areas fundamental to building technologically advanced and sustainable civilization, including areas as diverse as water science, advanced materials, energy, electronics, environmental science and medicine. The journal accepts original and review articles as well as book reviews for publication. All the manuscripts are single-blind peer-reviewed for scientific quality and acceptance.
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