2016-10-012024-05-16https://scholars.lib.ntu.edu.tw/handle/123456789/668514摘要：本計畫中我們將利用捐贈款從事下列研究工作，包括：氮化鎵奈米柱的生長及其發光二極體應用、用於表面電漿子的氧化鎵鋅薄膜與奈米針結構生長、其他表面電漿子應用研究。在氮化鎵奈米柱生長課題上，研究焦點在於生長多節奈米柱以製作免用螢光粉的白光發光二極體。在氧化鎵鋅薄膜與奈米針結構研究課題上，我們將集中於摻銀來增加其電子濃度，使得表面電漿子共振波長可以縮短到1000奈米，以便應用於太陽能電池上。至於其他表面電漿子應用研究，我們將繼續研發表面電漿子耦合發光二極體來進一步增加其調制頻寬。<br> Abstract: In this project, we will use the donation for the following research topics, including GaN nanorod growth and LED application, GaZnO thin film and nanoneedle growths for plasmonics applications, and other surface plasmon application studies. The topic of GaN nanorod will focus at the growth of multi-section nanorod for implementing phosphor-free white-light LEDs. In the topic of GaZnO thin film and nanoneedle growths, we will concentrate on the doping of Ag for increasing their electron concentrations such that their surface plasmon resonance wavelengths can be reduced to ~1000 nm. This is important for solar cell application. As for other surface plasmon application, we will continue the study on surface plasmon coupled LED for further increasing the modulation bandwidth of an LED.氮化鎵奈米柱發光二極體氧化鎵鋅表面電漿子GaN nanorodlight-emitting diodeGaZnOsurface plasmon