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- By using the catalyst pyrolysis method, the carbon nanotube film was prepared on the different substrate materials. 摘要采用催化剂高温分解法,在矽片上成功地制备了碳纳米管薄膜。
- The effect of the process parameter on the preparation of the carbon nanotube film is discussed. 详细讨论了制备工艺参数变化对碳纳米管生长的影响。
- With the carbon nanotube film as cathode materials, the field emission characteristics of the carbon nanotube film cathode are presented and analyzed. 利用碳纳米管薄膜作为阴极材料,给出并分析了碳纳米管薄膜阴极的场致发射特性。
- Meanwhile, cobalt catalyst on the top of the carbon nanotube is cut off during the sonication.So the end-opened aligned carbon nanotube film is obtained at last. 位于纳米碳管膜顶部的催化剂在碳管切短的同时被去除,得到了顶部开口的纳米碳管。
- Seen from the SEM and TEM photo, the prepared carbon nanotube film possesses a better directing property, uniformity and a localization growth property. 利用扫描电镜和透射电镜观察表明,所制备的碳纳米管薄膜具有非常良好的定向性、均匀性和定域生长性。
- In this study, electrical properties of carbon nanotube films in electrolyte solution have been investigated. 本论文主要对碳纳米管膜在电解质溶液中的电学性质进行了研究。
- Field Emission of Carbon Nanotube Film 碳纳米管的薄膜场发射
- Water-soluble carbon nanotube film 水溶性多壁碳纳米管膜
- By the characteristics of scanning electron microscopy (SEM),Raman spectroscopy and XRD,effects of substrates on deposition of carbon nanotube films were discussed. 通过SEM、拉曼光谱和XRD表征,讨论了不同衬底对碳纳米管膜生长的影响。
- Carbon nanotube films grown on nickel sheet by CVD method were directly used for the electrode materials of capacitive deionization device(CDD). The surface structures of carbon nanotube films were characterized by FESEM,TEM and BET. 采用低压CVD法制备得到的金属镍基碳纳米管薄膜直接作为电容去离子器(CDD)的电极材料,并对碳纳米管薄膜进行了扫描电镜观察和比表面与孔径分析,探讨了该电极材料的电容吸附性能。
- A novel technology was explored, by which the aligned array carbon nanotube films (AAMF) deposited on quartz can be separated in layer by layer and re-assembled on a new flexible or rigid substrate. 摘要描述了一种将阵列式排列的碳纳米管膜完整地从沈积基底上逐层分离组装到新基底的技术。
- Deposition of Carbon Nanotubes Film by LPCVD and Related Field Emission Property[J]. 引用该论文 陈婷;孙卓;郭平生;王莉莉;黄素梅.
- The volt-ampert characteristic and resistivity of MWNTs adsorbed glycine are detectied at room temperature.The electrical conductivity of the carbon nanotubes film is increased. 室温下测试吸附甘氨酸前后碳纳米管膜伏安特性和电阻率的变化,发现吸附了甘氨酸后碳纳米管的导电能力增加,且增加的幅度与甘氨酸的浓度有关。
- Measurement of Resistivity and Investigation of Electronic Transport for Carbon Nanotube Film 碳纳米管膜电阻率的测定与导电机理
- Amperometric detection of oxidizable amino acids at multiwall carbon nanotube film modified electrodes by ion chromatography 多壁碳纳米管修饰电极用于离子色谱分离电活性氨基酸的安培检测
- Carbon nanotubes film emitter(CNT) 碳纳米管薄膜场发射体(CNT)
- Then a method to make the carbon nanotube disperse is found. 并找到了使其均匀分散的一种方法。
- carbon nanotube film 碳纳米管薄膜
- Synthesis of Straight Carbon Nanotube Films by Microwave Plasma Chemical Vapor Deposition at Low Temperature 微波等离子体化学气相沉积法低温制备直纳米碳管膜
- In 1991, carbon nanotube (CNT) was first reported in Nature by Iijima. 1991 年,日本电镜专家 Iijima 在制取 C60的残余物中,发现一种结构独特的管状单质炭,即碳纳米管(carbon nanotube,CNT)。
