教導學生認識奈米粉體與薄膜之種類特性、表面特性之量測分析及鑑定方法、合成製備製程及應用發展潛力和方向。本課程主要包含奈米粉體、奈米薄膜種類之介紹,並實施物理與化學方法製作奈米粉體與薄膜; 如奈米氧化鋅、奈米碳酸鈣、奈米二氧化鈦、奈米氫氧化鋁、奈米氧化鐵、奈米二氧化矽等)、奈米薄膜之合成方法(如氣相法、液相法、固相法)。實習SEM、EDX之使用以瞭解奈米粉體表面形貌特性之量測及分析方法、奈米粉體之應用方向(如奈米複合材料、奈米觸媒以及奈米流體等)。Teach students to understand the types and characteristics of nano powders and films, the quantities of surface properties and the calibration methods, the synthetic preparation process and application development potential and direction. This course mainly includes introductions of nano powders and nano film types, and implements physical and chemical methods to produce nano powders and films; such as nano oxide, nano calcium carbonate, nano calcium dioxide, nano oxidation oxide, nano iron oxide, nano silicon dioxide, etc.), and nano film synthesis methods (such as gas phase method, liquid phase method, solid phase method). Use SEM and EDX to understand the quantum measurement and analysis methods of surface morphological characteristics of nano powders, application directions of nano powders (such as nanocomposite materials, nanotouch media, and nanofluidics, etc.).
本課程主要的教學目標,是進行簡單的奈米材料(粉體、薄膜)製備實驗與檢測分析。在透過實驗實作與檢測分析的教學,使學生瞭解奈米科技的基本理論,並對奈米材料的製備技術,及檢測分析能具有初步體驗。
The main teaching objective of this course is to conduct simple preparation and testing and analysis of nanomaterials (powders, films). Through the teaching of experimental practice and detection analysis, students can understand the basic theories of nanotechnology, and have a preliminary experience in the preparation technology of nanomaterials and detection analysis.
自編講義
Self-edited lecture
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 出席出席 Attend |
10 | |
| 實作實作 Implement |
60 | |
| 實驗報告實驗報告 Experimental Report |
30 |
