https://scholars.lib.ntu.edu.tw/handle/123456789/66355
標題: | 以奈米操控法量測奈米螺旋碳管之機械性質 Measure Mechanical Property of Carbon Nanocoils by AFM Manipulator |
作者: | 游京翰 Yu, Chung-Han |
關鍵字: | 奈米螺旋碳管;螺旋碳管排列;奈米操控;原子力顯微鏡;機械性質;Carbon nanocoil;alignment;nanomanipulation;AFM;mechanical property | 公開日期: | 2008 | 摘要: | 隨著科技的進展,元件的尺寸越做越小,因此所需要的材料尺寸也隨之縮小。隨著尺寸的縮小,許多能夠在巨觀下製作的材料並無法直觀地在奈米尺度下製作出來。而奈米螺旋碳管的出現,突破了許多在製作奈米元件上技術中的限制。然而在應用上,我們則必須能夠預先瞭解到材料的性質。文是利用在奈米科技中一項重要的工具-原子力顯微鏡並配合奈米操控儀,來對此一新穎的奈米材料做機械性質的量測。實驗使用鐵、錫二元催化劑並配合化學氣相沈積法成長奈米螺旋碳管。之後利用微影製程於二氧化矽試片表面製作出金電極,電極間距10微米,再使用電泳法將奈米螺旋碳管整齊排列於兩電極之間。完成之後,藉由金球粒化的特性將螺旋碳管部分包裹住而固定於試片表面。接著便使用奈米操控儀對螺旋碳管進行操控。最後經由分析實驗中探針所受側向力與位置的變化,計算出螺旋碳管的彈簧常數。再利用掃瞄式電子顯微鏡量測螺旋碳管的特徵尺寸後,便可以再計算出螺旋碳管的剪力模數。過實驗後,計算出奈米螺旋碳管的剪力模數約在2.0~2.6 GPa。並發現螺旋碳管與二氧化矽表面的動摩擦力小於螺旋碳管本身的彈力。 In this paper, we researched on the carbon nanocoil’s mechanical property by AFManomanipulator. The nanocoil were fabricated by CVD with Fe-Sn as catalyst. Theu electrodes were fabricated on SiO2 by photolithography. The gap betweenlectrodes is around 10μm. Then the nanocoils were aligned by electrophoresis. Byu clustering, the nanocoil were fixed on the surface of wafer. As the sampleompleted, the coil were imaged and manipulated by AFM manipulator. During thexperiment, the difference of lateral force can be recorded. By analyzing the changef lateral force, the spring const of nanocoil can be realized. The coil diameter andine diameter were determined by SEM. With spring const, coil diameter, and lineiameter, the shear modulus of nanocoil can be calculated. After calculation, the shearodulus of the nanocoil is 2.0~2.6 GPa. During the experiment, we realized theriction between nanocoil and SiO2 surface during moving smaller then the tension ofanocoil. |
URI: | http://ntur.lib.ntu.edu.tw//handle/246246/187329 |
顯示於: | 機械工程學系 |
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ntu-97-R95522636-1.pdf | 23.53 kB | Adobe PDF | 檢視/開啟 |
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