喷涂室温紫外传感器用氧化锌纳米四足体

2022 International Congress on Advanced Materials Sciences and Engineering (AMSE) Pub Date : 2022-07-22 DOI:10.1109/AMSE51862.2022.10036670

Mindaugas Ilickas, B. Abakevičienė, R. Mardosaitė, S. Račkauskas

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引用次数: 0

摘要

虽然ZnO纳米线广泛用于紫外传感，但优异的性能需要复杂的多步骤制备技术和高测量温度。在这项研究中，我们描述了一种利用氧化锌四足体(ZnO- T)结构的一步喷涂技术，在环境温度下具有高响应性(开/关)和短上升-衰减持续时间的紫外传感器制备技术。因此，紫外传感器实际上可以放在任何基板上，并且该技术对于商用紫外传感器的制备是可行的。

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Zinc oxide nanotetrapods for room temperature UV sensors by spray-coating

Although ZnO nanowires are extensively used for UV sensing, exceptional performance requires a complex multistep preparation technique as well as high measurement temperatures. In this study, we describe a UV sensor preparation technique with a high responsiveness (on/off) and short rise-decay durations at ambient temperature utilizing a one-step spray-coating technique of the ZnO tetrapod (ZnO- T) structure. As a result, UV sensors may be practically put on any substrate, and this technique is viable for commercial UV sensor preparation.

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2022 International Congress on Advanced Materials Sciences and Engineering (AMSE)

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