Fabrication and comparative optical characterization of n-ZnO nanostructures (nanowalls, nanorods, nanoflowers and nanotubes)/ p-GaN white-light-emitting diodes

N.H. Alvi; S.M. Usman Ali; S. Hussain

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Fabrication and comparative optical characterization of n-ZnO nanostructures (nanowalls, nanorods, nanoflowers and nanotubes)/ p-GaN white-light-emitting diodes

机译：n-ZnO纳米结构（纳米壁，纳米棒，纳米花和纳米管）/ p-GaN白色发光二极管的制备和比较光学特性

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White light-emitting diodes (LED) based on ZnO (nanowalls, nanorods, nanoflowers and nanotubes)/p-GaN were fabricated and their electrical, optical and electro-optical characteristics were comparatively characterized. All the LED showed rectifying behavior. The nanowalls and nanorods structures have the highest photoluminescence emission intensity in the visible and UV (at 3.29 eV) regions, respectively. The nanowalls have the highest color rendering index, with a value of 95, and the highest electroluminescence intensity with peaks approximately centered at 420, 450 nm and broad peak covering the visible region.

机译：制备了基于ZnO（纳米壁，纳米棒，纳米花和纳米管）/ p-GaN的白光发光二极管（LED），并对其电，光和电光特性进行了比较表征。所有LED均显示整流行为。纳米壁和纳米棒结构分别在可见光和紫外光（3.29 eV）区域具有最高的光致发光发射强度。纳米壁具有最高的显色指数，其值为95，并且具有最高的电致发光强度，其峰大约位于420、450 nm的中心，并且宽峰覆盖了可见区域。

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《Scripta materialia》 |2011年第8期|共4页
作者
N.H. Alvi; S.M. Usman Ali; S. Hussain;
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正文语种 eng
中图分类冶金工业;
关键词
Zinc oxide; Nanostructure; Aqueous chemical growth; Optical properties; Heterojunctions;

机译：氧化锌;纳米结构;水化学生长;光学性能;异质结;

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1. Fabrication and comparative optical characterization of n-ZnO nanostructures (nanowalls, nanorods, nanoflowers and nanotubes)/ p-GaN white-light-emitting diodes [J] . N.H. Alvi, S.M. Usman Ali, S. Hussain Scripta materialia . 2011,第8期

机译：n-ZnO纳米结构（纳米壁，纳米棒，纳米花和纳米管）/ p-GaN白色发光二极管的制备和比较光学特性
2. Growth and characterization of n-ZnO/p-GaN nanorods on silicon for the fabrication of heterojunction diodes [J] . Guan-Hung Shen, Franklin Chau-Nan Hong Thin Solid Films . 2014,第ptab期

机译：用于异质结二极管制造的硅上n-ZnO / p-GaN纳米棒的生长和表征
3. Fabrication and characterization of high-brightness light emitting diodes based on n-ZnO nanorods grown by a low-temperature chemical method on p-4H-SiC and p-GaN [J] . N H Alvi, M Riaz, G Tzamalis, Semiconductor science and technology . 2010,第6期

机译：基于低温化学法在p-4H-SiC和p-GaN上生长的基于n-ZnO纳米棒的高亮度发光二极管的制备和表征
4. Post fabrication annealing effects on electrical and optical characteristics of n-ZnO nanorods/p-Si heteroj unction diodes [C] . S.M. Faraz, N. H. Alvi, A. Henry, NSTI nanotechnology conference and expo;Nanotech conference expo;NSTI-Nanotech 2011;TechConnect world annual conference expo . 2011

机译：制造后退火对n-ZnO纳米棒/ p-Si异质结二极管的电和光学特性的影响
5. A study of nanostructure and properties of mixed nanotube buckypaper materials: Fabrication, process modeling characterization, and property modeling [D] . Yeh, Cherng-Shii 2007

机译：混合纳米管巴克纸材料的纳米结构和性能研究：制备，过程建模表征和性能建模
6. The fabrication of white light-emitting diodes using the n-ZnO/NiO/p-GaN heterojunction with enhanced luminescence [O] . Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Mushtaque Hussain, 2013

机译：使用具有增强发光的n-ZnO / NiO / p-GaN异质结制造白色发光二极管
7. Slanted n-ZnO/p-GaN nanorod arrays light-emitting diodes grown by oblique-angle deposition [O] . Ya-Ju Lee, Zu-Po Yang, Fang-Yuh Lo, 2014

机译：通过倾斜角沉积生长的倾斜n-ZnO / p-GaN纳米棒阵列发光二极管

Fabrication and comparative optical characterization of n-ZnO nanostructures (nanowalls, nanorods, nanoflowers and nanotubes)/ p-GaN white-light-emitting diodes

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