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Method and apparatus for synthesizing carbon nanotubes using ultrasonic evaporation

a carbon nanotube and ultrasonic evaporation technology, applied in the direction of chemistry apparatus and processes, liquid-gas reaction processes, chemical/physical/physico-chemical processes, etc., can solve the problems of inconvenient mass production of carbon nanotubes, low purity of obtained products, and insufficient synthesis of carbon nanotubes

Inactive Publication Date: 2008-05-01
KOREA INST OF ENERGY RES
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  • Abstract
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Benefits of technology

[0020]Accordingly, the present invention has been made in order to solve the above problems occurring in the prior art, and an object of the present invention is to provide an apparatus and method for synthesizing carbon nanotubes in which a large amount of carbon nanotubes is uniformly synthesized using only a liquid metal catalyst mixture, composed of liquid carbon sources and metal catalytic particles, without performing an additional patterning process, and in which a large amount of precursors, composed of metal catalytic particles, carbon atoms and hydrogen atoms, is produced at a uniform size by instantaneously evaporating and atomizing a liquid metal catalyst mixture using an ultrasonic vibration method, the operation time and operation intensity of which can be controlled in order to compensate for the problems with the simple heating method and the electrospray method, and thus carbon nanotubes can be synthesized easily and at high efficiency in large quantities using the produced precursors on large area substrates mounted in a reactor through a thermal pyrolysis method while controlling the reaction conditions of the produced precursors.
[0021]Another object of the present invention is to provide an apparatus and method for synthesizing carbon nanotubes, in which a large amount of carbon nanotubes is uniformly and continuously synthesized using only a liquid metal catalyst mixture composed of liquid carbon sources and metal catalytic particles without performing an additional patterning process, and in which a large amount of precursors, composed of metal catalytic particles, carbon atoms and hydrogen atoms, is produced at uniform sizes by instantaneously evaporating and atomizing a liquid metal catalyst mixture using an ultrasonic vibration method, the operation time and operation intensity of which can be controlled in order to make up for problems with a simple heating method and an electrospray method, and carbon nanotubes can be synthesized cheaply, at high efficiency, and continuously in large quantities using the produced precursors on large area substrates mounted in a reactor through a thermal pyrolysis method, while controlling the reaction condition of the produced precursors, thereby easily producing the carbon nanotubes using a continuous collection method.

Problems solved by technology

In this method, although high-quality carbon nanotubes can be synthesized, there are disadvantages in that the purity of the obtained products is low and in that it is not suitable for the mass production of carbon nanotubes.
The laser ablation method has advantages in that the produced carbon nanotubes are relatively straight and have high quality, but has disadvantages in that the energy consumption of apparatus is necessary for synthesis.
Further, these methods have disadvantages in that additional purification are required in order to realize high purity after the synthesis of carbon nanotubes, and in that it is difficult to control the structures of the carbon nanotubes and grow the carbon nanotubes vertically.
However, this method has disadvantages in that the evaporation of metal catalytic particles and carbon sources, having different boiling points from each other, in a vessel can be influenced by the heating condition for evaporation, and in that it is difficult to maintain the amount of precursor constant because the amount of mixture in the vessel changes with the passage of time.
However, these methods have problems in that the initial investment costs are high because the apparatuses used in these methods are relatively expensive, and in that control systems are complicated.

Method used

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  • Method and apparatus for synthesizing carbon nanotubes using ultrasonic evaporation
  • Method and apparatus for synthesizing carbon nanotubes using ultrasonic evaporation
  • Method and apparatus for synthesizing carbon nanotubes using ultrasonic evaporation

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example 1

[0084]An apparatus for synthesizing carbon nanotubes was disposed as shown in FIG. 1, and then an experiment thereon was carried out as shown in FIG. 7. FIG. 7 is graphs showing an example of the synthesis of carbon nanotubes and the control of the structure thereof depending on the synthesis time in a thermal pyrolysis system using an ultrasonic evaporation method according to the present invention.

[0085]The experiment was carried out under the condition that the reaction unit 4, shown in FIG. 1, was maintained at a temperature of 850° C., the concentrations of metal catalytic particles 72 included in liquid carbon sources 73 were 6.5 mol % in all experiments, the supply rate of the liquid metal catalyst mixture 12 was maintained at a rate of 5 ml / hr through a syringe pump 11, and the synthesis times of the carbon nanotubes 71 were 30 min, 60 min, 90 min and 120 min, respectively. The results of the experiments are shown in FIG. 7. The liquid metal catalyst mixture 12 supplied thro...

example 2

[0088]An apparatus for synthesizing carbon nanotubes was disposed as shown in FIGS. 1 and 2, and then an experiment thereon was carried out as shown in FIG. 8. The experiment was carried out under the condition that the temperature in the reaction unit 4, shown in FIG. 1, was maintained at a temperature of 800° C., the concentrations of metal catalytic particles 72 included in liquid carbon sources 73 were 6.5 mol % in experiments, the supply rate of a liquid metal catalyst mixture 12 was maintained at a rate of 500 ml / hr through a general quantitative pump without using a syringe pump 11, and the synthesis time of the carbon nanotubes 71 was 30 min. The results of the experiments are shown in FIG. 8. Since the liquid metal catalyst mixture 12 supplied through the general quantitative pump was supplied through a tube having a diameter of 1 / 16 inches and was then continuously supplied to a vibration plate, the vibration plate was continuously operated in an ON state. Maximum power co...

example 3

[0089]An apparatus for synthesizing carbon nanotubes was disposed as shown in FIG. 1, and then an experiment thereon was carried out as shown in FIG. 9. FIG. 9 is graphs showing an example of the synthesis of carbon nanotubes and the control of the structure thereof depending on reactor temperature in a thermal pyrolysis system using an ultrasonic evaporation method according to the present invention. As shown in FIG. 9, the average diameters of samples were evaluated according to the experimental results measured under the condition that the temperatures of reaction unit 4, shown in FIG. 1, were 700° C., 800° C., 900° C. and 1000° C., respectively.

[0090]The carbon nanotubes 71 were grown under the condition that the concentrations of metal catalyst particles 72 included in liquid carbon sources 73 were 6.5 mol % in all experiments, the supply rate of the liquid metal catalyst mixture 12 was maintained at a rate of 5 ml / hr using a syringe pump 11, and the synthesis time of the carbo...

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Abstract

Disclosed herein is an apparatus and method for synthesizing carbon nanotubes, including a fuel supply unit for supplying a large amount of liquid metal catalyst mixture using a syringe pump for quantitatively supplying a liquid metal catalyst mixture, mixed with hydrocarbon-based liquid carbon sources such as xylene, toluene, benzene and the like, and metal catalytic particles, such as iron, nickel, cobalt, molybdenum and the like, and a general liquid pump for supplying a liquid metal catalyst mixture depending on the amount thereof; an evaporation unit for evaporating and atomizing the liquid metal catalyst mixture supplied from the fuel supply unit into precursors having a uniform size on the nanometer scale; a carrier gas supply unit for transferring particles atomized in the evaporation unit to a reactor and transferring carrier gas, having an influence on the synthesis of carbon nanotubes, to the reactor; a horizontally oriented reaction unit for synthesizing carbon nanotubes in large quantities using the carrier gas supplied from the carrier gas supply unit and the precursors formed in the evaporation unit; a filtering unit comprising a filter for filtering residual particles among the atomized particles synthesized into carbon nanotubes in the horizontally oriented reaction unit and some of the carbon nanotubes synthesized in the vapor phase; and a vacuum generation unit comprising a vacuum pump configured to be connected with the filtering unit, decrease pressure in the reactor, and remove oxygen remaining in the reactor, or a continuous collection unit in the case where the apparatus includes a vertical type reaction unit.

Description

BACKGROUND OF THE INVENTION[0001]1. Field of the Invention[0002]The present invention relates to a method and apparatus for synthesizing carbon nanotubes using ultrasonic evaporation and, more particularly, to a method and apparatus for synthesizing carbon nanotubes, in which precursors having uniform sizes, composed of metal catalytic particles, carbon atoms and hydrogen atoms, are produced, either in large quantities or continuously, by instantaneously evaporating and atomizing a liquid metal catalyst mixture including hydrocarbon liquid fuels and metal catalytic particles using a control system for automatically controlling operation time and intensity, operated by an ultrasonic vibration method, thereby synthesizing carbon nanotubes cheaply and at high efficiency by growing the produced precursors on large area substrates in large quantities, or synthesizing carbon nanotubes continuously using the produced precursors through continuous reaction and collection.[0003]2. Descriptio...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): D01F9/12
CPCB01J19/10B01J2219/00087C01B31/0233B82Y40/00B82Y30/00C01B32/162
Inventor JEONG, NAM-JOSEO, YONG-SEOG
Owner KOREA INST OF ENERGY RES
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