Optimization on CNT production using modified domestic microwave oven

Authors

Eka Prasetia Merdika, De La Salle University, Manila
Joseph L. Auresenia, De La Salle University, Manila
Raymond Girard R. Tan, De La Salle University, Manila
Masaaki Suzuki, Tokyo Institute of Technology

College

Gokongwei College of Engineering

Department/Unit

Chemical Engineering

Document Type

Conference Proceeding

Source Title

RSCE-SOMCHE

First Page

27

Last Page

32

Publication Date

2008

Abstract

A method for the production of carbon nanotubes was developed using low vacuum pressure, low temperature, and simple catalyst preparation. Acetylene, nitrogen and hydrogen gas mixture was used as process gas. The nickel catalyst was used and placed in a quartz reactor which is arranged inside a modified domestic microwave oven. The set-up was operated at 260torr and the power controller of the microwave oven was set into a sequence of turning on for 5 seconds at 850 W and standby for 10 seconds.
The presence of carbon nanotubes in the carbon deposit produced was determined using SEM and XRD. Optimization was conducted by varying gas mixture ratio, total flow rate, catalyst precursor concentration, and run time. Confirmation runs using optimized parameters yielded, on the average, 13.35 mg of carbon deposit; carbon nanotubes which were 963 nm long, 79 nm in diameter, and of 77.86% purity.

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Recommended Citation

Merdika, E., Auresenia, J. L., Tan, R. R., & Suzuki, M. (2008). Optimization on CNT production using modified domestic microwave oven. RSCE-SOMCHE, 27-32. Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/11975

Disciplines

Chemical Engineering

Note

Edited by Daud et. al.

Keywords

Carbon nanotubes; Microwave ovens; Mathematical optimization

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