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采用射频等离子体增强化学气相沉积技术,以Ni为催化剂,在Si基底上沉积出定向性良好的碳纳米管.用扫描电镜表征了催化剂颗粒大小和相应的碳纳米管形貌.深入研究了催化剂膜厚对碳纳米管牛长的影响.结果表明:不同度的催化剂薄膜经刻蚀形成的颗粒密度、尺寸、分布等对碳纳米管的合成质量起主要作用.催化剂厚度≤5 nm时,形成的颗粒密度较小而且分布不均,制备的碳纳米管产量低、定向性差.催化剂厚度≥15 nm时,形成的颗粒较大,粘连在一起,生长时大部分被非晶碳包覆,几乎没有碳纳米管的生长.催化剂厚度为10 nm时,形成的颗粒密度大、分布较均,制备的碳纳米管纯度高、定向性好.

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