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Effect of Synthesis Temperature on the Growth Iron-Filled Carbon Nanotubes as Evidenced by Structural, Micro-Raman, and Thermogravimetric Analyses

机译：合成温度对由结构，微拉曼和热重分析证明的生长铁填充碳纳米管的影响

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Tubular structure and well dense of aligned carbon nanotubes (CNTs) were formulated using two-stage catalytic chemical vapor deposition apparatus. In this experiment, aligned CNT was synthesized in the range of 700–900°C temperatures with increment rate of 50°C per sample. The aligned CNT properties were investigated via field emission scanning electron microscope, micro-Raman spectrometer and thermogravimetric analyzer. The experimental results showed that aligned CNT properties were highly dependent on synthesis temperature changes. The optimum temperature of higher crystallinity was observed at 800°C synthesis temperature. However, the highest yield of nanotubes (~99.99%) was obtained at 900°C synthesis temperature. Aligned CNT orientation was in a parallel form and packed together in orderly manner. The behaviors of aligned CNT will be discussed in detail in this paper.

机译：使用两级催化化学气相沉积装置配制管状结构和对准碳纳米管（CNTS）的良好致密。在该实验中，对准的CNT在700-900℃温度范围内合成，其样品的增量率为50℃。通过现场发射扫描电子显微镜，微拉曼光谱仪和热重分析仪研究了对齐的CNT性质。实验结果表明，对齐的CNT性能高度依赖于合成温度变化。在800℃合成温度下观察到更高结晶度的最佳温度。然而，在900℃合成温度下获得纳米管的最高产率（〜99.99％）。对齐的CNT取向呈平行形式并以有序方式包装在一起。将在本文中详细讨论对齐CNT的行为。

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M. S. Shamsudin; N. A. Asli; S. Abdullah; S. Y. S. Yahya; M. Rusop;
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年度 2012
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正文语种 eng
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1. Effect of synthesis temperature on the growth iron-filled carbon nanotubes as evidenced by structural, micro-raman, and thermogravimetric analyses [J] . Shamsudin M.S., Asli N.A., Abdullah S., Advances in condensed matter physics . 2012,第Null期

机译：结构，微观拉曼和热重分析表明合成温度对填充铁的生长碳纳米管的影响
2. Effect of Synthesis Temperature on the Growth Iron-Filled Carbon Nanotubes as Evidenced by Structural, Micro-Raman, and Thermogravimetric Analyses [J] . M. S.Shamsudin, N. A.Asli, S.Abdullah, Advances in condensed matter physics . 2012,第1期

机译：结构，微观拉曼和热重分析表明合成温度对生长的铁填充碳纳米管的影响
3. EFFECT OF SYNTHESIS TEMPERATURE ON THE GROWTH OF MULTIWALLEDED CARBON NANOTUBES FROM ZEAMAYS OIL AS EVIDENCED BY STRUCTURAL, RAMAN AND XRD ANALYSES [J] . V.S. Angulakshmi, S. Karthikeyan, P.S. Syed Shabudeen Rasayan Journal of Chemistry . 2015,第1期

机译：结构，拉曼和XRD分析证明合成温度对玉米油中多元碳纳米管生长的影响
4. The Effect of Synthesis Temperature on the Growth of Carbon Nanotubes from Waste Chicken Fat Precursor [C] . A.R. Dalila, A.B. Suriani, M.S. Rosmi International Conference on Nanoscience Nanotechnology . 2014

机译：合成温度对废鸡脂肪前体碳纳米管生长的影响
5. Thermal oxidation induced degradation of carbon fiber reinforced composites and carbon nanotube sheet enhanced fiber/matrix interface for high temperature aerospace structural applications. [D] . Haque, Mohammad Hamidul. 2012

机译：热氧化引起的碳纤维增强复合材料的降解以及碳纳米管片增强的纤维/基质界面的降解，用于高温航空航天结构应用。
6. Local Synthesis of Carbon Nanotubes in Silicon Microsystems: The Effect of Temperature Distribution on Growth Structure [O] . Bao Q. Ta, Tormod B. Haugen, Nils Hoivik, 2013

机译：硅微系统中碳纳米管的局部合成：温度分布对生长结构的影响
7. Efficient coupling of optical energy for rapid catalyzed nanomaterial growth: high-quality carbon nanotube synthesis at low substrate temperatures. [O] . Ahmad M, Anguita JV, Stolojan V, 2013

机译：光能的高效耦合，可快速促进纳米材料的生长：在低基材温度下高质量的碳纳米管合成。
8. Noise Properties of Iron-Filled Carbon Nanotubes. [R] . Roumiantsev, S., Vajtai, R., Pala, N., 2001

机译：铁填充碳纳米管的噪声特性。

Effect of Synthesis Temperature on the Growth Iron-Filled Carbon Nanotubes as Evidenced by Structural, Micro-Raman, and Thermogravimetric Analyses

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