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Study of a Wide Area Carbon Nanotubes Preparation for an Environmental Application
-
Shin-ichi Aoqui
,
Yoshiyuki Suda
Published/Copyright:
November 30, 2016
Abstract
The gas occlusion of carbon-based material has recently attracted attention. Especially, for the carbon nanotubes (CNTs) as its sensitivity has become known for gases such as NH3 and NO2, and also its gases occlusion ability would be high. If large quantities of gas can occlude CNTs, the release of hazardous materials to the atmosphere such as dioxin may be controlled. In this study, we applied a catalysis organ-metal solution to a substrate, and then it was burned. This is a very unique method. Not only the cost-performance of this method is high, in comparison to other methods, but also this can be increased to a wide area of CNTs preparation.
Keywords: Carbon nanotubes; Carbon nanofibers; Organ-metal Solution; Thermal chemical vapor deposition; laser thermal CVD
Received: 2005-12-30
Revised: 2006-2-15
Accepted: 2006-2-20
Published Online: 2016-11-30
Published in Print: 2006-7-1
© 2016 by Walter de Gruyter Berlin/Boston
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- Power Supply Systems of Ozone Generators with Magnetic Frequency Multipliers
- Simultaneous Decomposition of Diesel Particulate Material and NOx Using Dielectric Barrier Discharge
- Phenol Oxidation in Aqueous Solution by Gas Phase Corona Discharge
- LIF Observation of Ground-State OH Radicals in DC Nozzle-to-Plane Positive Streamer Corona
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- Development of Agricultural Soil Sterilization Using Ozone Generated by High Frequency Dielectric Barrier Discharge
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- Energetic of the Oxidation of NOx by Ozone Using a Simple Molecular Model in a Computational Chemistry Scheme
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- Plasma-catalytic Conversion of Methane by DBD and Gliding Discharges
- Investigation of Hot Gas Mixture Free Jet
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- Modification of Polymer Surfaces Using Atmospheric Pressure Barrier Discharges
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Keywords for this article
Carbon nanotubes;
Carbon nanofibers;
Organ-metal Solution;
Thermal chemical vapor deposition;
laser thermal CVD
Articles in the same Issue
- Preface
- Power Supply Systems of Ozone Generators with Magnetic Frequency Multipliers
- Simultaneous Decomposition of Diesel Particulate Material and NOx Using Dielectric Barrier Discharge
- Phenol Oxidation in Aqueous Solution by Gas Phase Corona Discharge
- LIF Observation of Ground-State OH Radicals in DC Nozzle-to-Plane Positive Streamer Corona
- Measurement of Low Gas Concentration Using Photonic Bandgap Fiber
- A Study on a Diode-Bridge Type Differential Capacitance Detection Circuit
- Microwave Reactor for Nitrous Oxide Processing
- Volume-Surface Discharge as an Ion Source for Plasma Technologies
- Development of Agricultural Soil Sterilization Using Ozone Generated by High Frequency Dielectric Barrier Discharge
- Modeling of the Temperature Distribution in Arc Discharge Plasma Reactor
- Arc Plasma Reactor Power System with 5-Limb Transformer
- Discharge Plasma Characteristics in Pure Ar Gas at Multi-Atmospheric Pressure Using the Automatically Pre-Ionized Plasma Electrode
- A New Type of Reactor with a Combination of Surface Discharge and Advanced Oxidation Process in Air and its Applications
- Study of a Wide Area Carbon Nanotubes Preparation for an Environmental Application
- Research on Waste Water Purification by Ozone Treatment and Pulsed Discharge Treatment
- Energetic of the Oxidation of NOx by Ozone Using a Simple Molecular Model in a Computational Chemistry Scheme
- Analysis of Acoustic Signal in the MICRO Discharges Using Continuous Wavelet Transform
- Plasma-catalytic Conversion of Methane by DBD and Gliding Discharges
- Investigation of Hot Gas Mixture Free Jet
- Piezoelectrical Properties of Plasma Layers Zn-Bi-O
- Modification of Polymer Surfaces Using Atmospheric Pressure Barrier Discharges
- Influence of Silicon, Oxygen and Nitrogen Admixtures Upon the Properties of Plasma Deposited Amorphous Diamond-Like Carbon Coatings
- Thin Films Deposited from Trimethylmethoxysilane
