A.N. Falina scite author profile

In this study we report the effect of various synthesis temperatures of 600 - 1000°C for the synthesis of carbon nanotubes (CNT). Bio-hydrocarbon precursor namely palm oil was utilized as a starting material by thermal vapor deposition method. Ferrocene at 5.33 wt% was directly mixed with palm oil precursor for 30 mins synthesis time. The prepared CNT was collected from the furnace wall and then characterized by field emission scanning electron microscopy, scanning transmission electron microscopy, fourier transform infrared spectroscopy and thermogravimetric analysis. The density, diameter and the purities of the CNT were found to be highly dependent on the temperature changes. The synthesis temperature of 800°C was considered to be the optimum temperature for higher quality and quantity of CNT production.

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Effect of Iron and Cobalt Catalysts on The Growth of Carbon Nanotubes from Palm Oil Precursor

Suriani

Asli

Muhamad

et al. 2013

IOP Conf. Ser.: Mater. Sci. Eng.

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Preparation of Palm Oil Based Carbon Nanotubes at Various Ferrocene Concentration

Azmina

Suriani

Falina

et al. 2011

AMR

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In this work, different ferrocene concentration (1.0-8.0 wt%) of bio-hydrocarbon palm oil precursor were utilized to investigate its effect on the characteristics of the produced carbon nanotubes (CNT). The palm oil-ferrocene mixture was vaporized at 450°C and pyrolyzed at 800°C for 30 min time in argon ambient. The CNT were analyzed using field emission scanning electron microscopy, scanning transmission electron microscopy, fourier transform infrared spectroscopy (FTIR) and thermogravimetric analysis. The analysis confirmed different diameter and morphologies of CNT were formed when different ferrocene concentration were used. FTIR spectra show the prominent peak at ~1445, 1736, 2851 and 2925 cm-1that are identified as CNT and C–Hxrespectively.

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Effect of synthesis time on carbon nanotubes growth from palm oil as carbon source by thermal chemical vapor deposition method

Suriani

Azmina

Muhamad

et al. 2012

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A.N. Falina

Field electron emission properties of vertically aligned carbon nanotubes deposited on a nanostructured porous silicon template: The hidden role of the hydrocarbon/catalyst ratio

Temperature Effects on the Production of Carbon Nanotubes from Palm Oil by Thermal Chemical Vapor Deposition Method

Effect of Iron and Cobalt Catalysts on The Growth of Carbon Nanotubes from Palm Oil Precursor

Preparation of Palm Oil Based Carbon Nanotubes at Various Ferrocene Concentration

Effect of synthesis time on carbon nanotubes growth from palm oil as carbon source by thermal chemical vapor deposition method

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