Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts
碩士 === 國立中山大學 === 材料科學研究所 === 94 === Samples are from I-Shou university Department of Materials Science and Engineering, Dr. Huy-Zu Cheng’s laboratory, First, using sol-gel method to produce silicon dioxide (SiO2) with iron catalysts, and with chemical vapor deposition (CVD) to produce carbon nanotu...
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2006
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| Online Access: | http://ndltd.ncl.edu.tw/handle/85487162278358229154 |
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ndltd-TW-094NSYS51590232016-05-27T04:18:58Z http://ndltd.ncl.edu.tw/handle/85487162278358229154 Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts 氣相沉積奈米碳管與成長催化劑之晶向關係 Che-Yi Wen 溫哲毅 碩士 國立中山大學 材料科學研究所 94 Samples are from I-Shou university Department of Materials Science and Engineering, Dr. Huy-Zu Cheng’s laboratory, First, using sol-gel method to produce silicon dioxide (SiO2) with iron catalysts, and with chemical vapor deposition (CVD) to produce carbon nanotubes. To operate these instruments, for example X-Ray diffractometry (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM) to analyze. The research point is judging the crystallographic orientation relationships between carbon nanotube and catalysts. Using transmission electron microscopy (TEM) to do diffraction patterns with carbon nanotubes and catalysts. From diffraction patterns results, we can decide what catalysts is? And it’s crystallographic relationship. After affirming from diffraction patterns, there are three chemical compositions in the carbon nanotubes, including Fe3C、 Hong-Yang Lu 盧宏陽 2006 學位論文 ; thesis 84 zh-TW |
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NDLTD |
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zh-TW |
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碩士 === 國立中山大學 === 材料科學研究所 === 94 === Samples are from I-Shou university Department of Materials Science and Engineering, Dr. Huy-Zu Cheng’s laboratory, First, using sol-gel method to produce silicon dioxide (SiO2) with iron catalysts, and with chemical vapor deposition (CVD) to produce carbon nanotubes. To operate these instruments, for example X-Ray diffractometry (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM) to analyze. The research point is judging the crystallographic orientation relationships between carbon nanotube and catalysts. Using transmission electron microscopy (TEM) to do diffraction patterns with carbon nanotubes and catalysts. From diffraction patterns results, we can decide what catalysts is? And it’s crystallographic relationship.
After affirming from diffraction patterns, there are three chemical compositions in the carbon nanotubes, including Fe3C、
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| author2 |
Hong-Yang Lu |
| author_facet |
Hong-Yang Lu Che-Yi Wen 溫哲毅 |
| author |
Che-Yi Wen 溫哲毅 |
| spellingShingle |
Che-Yi Wen 溫哲毅 Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts |
| author_sort |
Che-Yi Wen |
| title |
Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts |
| title_short |
Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts |
| title_full |
Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts |
| title_fullStr |
Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts |
| title_full_unstemmed |
Crystallographic Orientation Relationships between CVD-grown Carbon Nanotubes and Growth Catalysts |
| title_sort |
crystallographic orientation relationships between cvd-grown carbon nanotubes and growth catalysts |
| publishDate |
2006 |
| url |
http://ndltd.ncl.edu.tw/handle/85487162278358229154 |
| work_keys_str_mv |
AT cheyiwen crystallographicorientationrelationshipsbetweencvdgrowncarbonnanotubesandgrowthcatalysts AT wēnzhéyì crystallographicorientationrelationshipsbetweencvdgrowncarbonnanotubesandgrowthcatalysts AT cheyiwen qìxiāngchénjīnàimǐtànguǎnyǔchéngzhǎngcuīhuàjìzhījīngxiàngguānxì AT wēnzhéyì qìxiāngchénjīnàimǐtànguǎnyǔchéngzhǎngcuīhuàjìzhījīngxiàngguānxì |
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