Effects of surface conditions on the visible luminescence of ZnO

IF 2.8 3区 物理与天体物理 Q2 PHYSICS, CONDENSED MATTER
Q. Hu, N. Zhou, B.C. Hu, J. Chen, Q.Y. Zhang
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引用次数: 0

Abstract

The effects of surface conditions on photo-induced-carrier (PIC) diffusion are studied by solving one-dimensional continuity equation. Using various forms of ZnO samples with different surface conditions, the PICs lost at sample surface are substantiated to have important contributions to the visible luminescence. For unpassivated ZnO nanorods and single-crystal samples that undergo a high-temperature annealing in air, the visible luminescence originating from the PICs diffused to the surface is estimated more than 99.8 % and 70 % at room temperature, respectively, and more than 99.99 % and 97 % at low temperature. The structureless luminescence caused by PICs, such as the green, yellow, and orange luminescence bands are well fitted under the framework of tail-state luminescence, while the structured green band is suggested to be in association with a specific type of surface states formed during high-temperature annealing in oxidizing atmosphere and can be fitted with Huang-Rhys model by taking into account tail-state luminescence.

表面条件对ZnO可见光发光的影响
通过求解一维连续性方程,研究了表面条件对光诱导载流子扩散的影响。利用不同表面条件下的各种形式的ZnO样品,证实了样品表面损失的PICs对可见光发光有重要贡献。对于在空气中进行高温退火的未钝化ZnO纳米棒和单晶样品,在室温下扩散到表面的PICs发出的可见光分别超过99.8%和70%,在低温下超过99.99%和97%。PICs引起的无结构发光,如绿色、黄色和橙色发光带,可以很好地拟合在尾态发光的框架下,而结构绿色发光带可能与氧化气氛高温退火过程中形成的特定类型的表面态有关,并且可以考虑尾态发光,与Huang-Rhys模型拟合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Physica B-condensed Matter
Physica B-condensed Matter 物理-物理:凝聚态物理
CiteScore
4.90
自引率
7.10%
发文量
703
审稿时长
44 days
期刊介绍: Physica B: Condensed Matter comprises all condensed matter and material physics that involve theoretical, computational and experimental work. Papers should contain further developments and a proper discussion on the physics of experimental or theoretical results in one of the following areas: -Magnetism -Materials physics -Nanostructures and nanomaterials -Optics and optical materials -Quantum materials -Semiconductors -Strongly correlated systems -Superconductivity -Surfaces and interfaces
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