2013-08-012024-05-18https://scholars.lib.ntu.edu.tw/handle/123456789/700832摘要：有機自旋電子學元件對於商業應用提供了以下好處：便宜的原料、非揮發性進階效能、可撓性、與光學和電子操縱結合的功能性，還有大面積顯示器與發光體可捲收的優點。在這個應用導向的計畫裡我們將集中發展控制有機/無機介面品質與提高自旋電子注入效率的核心技術。主要產出與應用目標在於自旋有機發光二極體與有機電子學電晶體。合作的國家奈米元件實驗室不只提供了主要核心製程設施，也負責了有機自旋元件與半導體元件的整合工作所需的專業知識。這個整合工作對於有機自旋電子元件成功的工業應用非常重要。<br> Abstract: Organic spintronic devices providethe advantages for the novel commercial applications in nanoelectronics, such as low cost materials, non-volatile advanced performance, flexibility, and functionality with combination of optical and electric manipulation as well as ’roll-up’ portability of large area devices for display or light emitting. In this applicationorientated project we will focus on the development of core-technologies of interface control and enhancement of spin-injectionenhancement at organic/inorganic interface. The major targets of the product or the application in this project will be spin-polarized organic light emitting diodes as well organic spintronic transistors. The collaborative institute, National Nano Device Laboratory provide not only the core-facilities, but also the expertise and knowledge in integration of organic spintonic building block with semiconductor components, which is essential for a realistic application of the organic spintronic devices in industries.有機自旋子學有機自旋閥奈米磁學自旋依賴傳輸自旋電子邃道掃描顯微鏡有機電子學奈米電子學有機/無機介面電子束蝕刻原子層沉積有機發光二極體發光二極體自旋有機發光二極體自旋電晶體..organic spintronicsorganic spin valvenanomagnetismspin-dependent transportspinpolarized scanning tunneling microscopyorganic electronicsnanoelectronicsspin-valve devicesorganic/inorganic interfacemagnetic anisotropye-beam lithography.....