2011-08-012024-05-18https://scholars.lib.ntu.edu.tw/handle/123456789/699409摘要:於分項計畫五內,具有晶體生長、奈米製程、奈米光子學、半導體特性分析、奈米發光、光伏及電子元件製作、有機光電子、元件模擬、生物檢測、生醫技術等專長,共九位教師分工合作,從事寬能隙半導體及金屬奈米結構之製作,同時以實驗及模擬方法探討這些奈米結構之奈米光電子學及奈米光子學(表面電漿子)特性,並進一步開發這些奈米結構在發光、光伏、雷射、電子、生物檢測、醫學標靶影像與治療等元件應用。除了研究材料與物理基本特性外,我們也針對節能、替代能源及醫療照顧產業發展之目標研製實用元件。<br> Abstract: In sub-project 5, nine faculty members with the expertise of crystal growth, nano-process, nano-photonics, semiconductor characterization, nano-light-emitting, photovoltaic, and electronic device fabrications, organic optoelectronics, device modeling, biosensing, and biomedical technology, work together for fabricating wide-band-gap semiconductor and metal nanostructures, investigating their nano-optoelectronics and nano-photonics (surface plasmon) properties based on experimental and numerical studies, and exploring their applications to light-emitting, photovoltaic, laser, electronics, biosensing devices, and targeted medical imaging and therapy. Fundamental material/physical issues and practical device applications, aiming at the developments of energy saving, renewable energy, and medical care industries, will be investigated.寬能隙半導體奈米柱金屬奈米結構表面電漿子發光元件光伏元件電子元件生物檢測標靶影像與治療wide-band-gap semiconductor nanorodmetal nanostructuresurface plasmonlight-emitting devicephotovoltaic deviceelectronicsbiosensingtargeted imaging and therapy子計畫五:光電應用之寬能隙半導體及金屬奈米結構