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Article
Optimizing the Microstructures of Inclined Deposition to Improve the Photoelectric Properties of ZnO Thin Films
Radiofrequency magnetron sputtering has been applied in the deposition of a zinc oxide (ZnO) thin film, which has been used as a next-generation transparent conducting electrode material to replace indium tin ...
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Article
Improving Surface Structures of Al-Doped Zinc Oxide Thin Films to Apply in CO Gas-Sensing Property by Designing Processes Through RF Magnetron Sputtering
Because of their favorable sensitivity in chemical environments, zinc oxide (ZnO) materials are widely used in gas sensing. This study performed deposition of aluminum-doped ZnO nanofilms through radiofrequenc...
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Article
Study on the Enhancement of Light Intensity and High Color Rendering Index of a White Light Emitting Diode
In this study, there are two objectives had been done. The first involved the fabrication of a white light emitting diode (LED) with a high color rendering index (CRI) through the near-ultraviolet excitation o...
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Article
Study on modulating the indium composition in InGaN quantum wells to improve the luminous efficiency of GaN LED
This study primarily used metal-organic chemical vapor deposition to grow gallium nitride (GaN) light-emitting diode (LED) structures with InGaN quantum wells (QWs). During the InGaN QW growing process, an ide...
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Article
Using a Statistical Experimental Design Method to Confirm the Optimization of Al/Al Doped ZnO Double Layers
A conductive metal thin film Al is deposited as a buffer to form Al/AZO double layers. The Taguchi method, based on the Al thickness, annealing temperature and duration, is used to determine the optimum synthe...
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Article
Reducing light reflection by processing the surface of silicon solar cells
This study discussed a surface processing technique for improving the energy conversion rate of solar cells with silicon as the substrate. The technique involves texturing the surface of a silicon substrate an...
