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Preparation method for directly depositing and growing graphene on liquid bed in variable-temperature area

A direct deposition, temperature-variable region technology, applied in liquid phase epitaxial layer growth, single crystal growth, crystal growth and other directions, can solve the problems of high processing cost, large environmental pollution, high cost, high efficiency, good performance and low cost Effect

Inactive Publication Date: 2017-09-01
孙旭阳
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The production process has poor stability, and the product structure is uncertain. The production process uses strong acids and strong oxidants, causing serious environmental pollution and high processing costs.
[0006] 2. CVD graphene has good performance, but the cost is extremely high and the production efficiency is extremely low
Moreover, the number of graphene layers produced by this method, size and quality are difficult to control, and there will be traces of sodium and chloride ion sticking dirt, so high-quality graphene films cannot be obtained.
[0008] Although the method of plasma non-high-temperature liquid-phase growth of graphene can directly grow graphene film on the target substrate without transferring, and has excellent performance and quality, it needs plasma enhancement, and the cost of carbon source activation and cracking is high. The amount of atomic carbon dissolved in the phase medium is less, and the growth control is more difficult

Method used

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Experimental program
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Effect test

Embodiment 1

[0026] Since the graphene transfer problem of the growth method is the main factor restricting the cost and efficiency of graphene preparation, PMMA can be said to be a universal intermediate substrate. If graphene can be directly grown on PMMA, the transfer problem of graphene will be solved in fact.

[0027] Under the protection of nitrogen, in a relatively high temperature zone, a tin-indium alloy is contained in a nickel container as a liquid bed molten state medium, in which the mass ratio of tin and indium is 8:2. After heating and melting, the temperature is raised to 800°C and acetylene gas is continuously introduced. The acetylene carbon source is activated and cracked, and the cracked atomic carbon is dissolved in the molten medium tin-indium alloy, and the nickel container also plays a role in catalytic cracking and activation; the above-mentioned molten tin-indium alloy medium with dissolved carbon is transported to a relatively low temperature by pipeline In the c...

Embodiment 2

[0030] Under the protection of nitrogen and argon gas, in a relatively high temperature area, tin metal is contained in a nickel container as a liquid bed molten state medium, and polystyrene is added continuously after heating and melting to 1200 °C, and the polystyrene carbon source is activated and cracked. The cracked atomic carbon is dissolved in the molten tin liquid, and the nickel container also plays a role in catalytic cracking and activation; the above-mentioned molten tin liquid with dissolved carbon is transported to the stainless steel tank in the relatively low temperature area by pipeline, and the temperature is changed during the transport. In the variable temperature zone, the molten tin solution with carbon dissolved in the pipeline is cooled to 400°C to keep the carbon in an unsaturated precipitation state; in the relatively low temperature zone, the medium in the stainless steel tank maintains a working temperature of 400°C, and at the same time, the quartz ...

Embodiment 3

[0033] As mentioned above, under the protection of nitrogen and argon gas, in a relatively high temperature zone, the nickel container contains a molten medium as a liquid bed, in which the mass ratio of copper, nickel, and tin is 3:3:4, and the heating and melting temperature rises to 1000 After ℃, toluene liquid is introduced at the bottom, the carbon source is activated and cracked, and the atomic carbon after cracking is dissolved in the molten medium copper-nickel-tin alloy, and the nickel container also plays a role in catalytic cracking and activation; The molten tin-indium alloy medium is transported to the carbonaceous tank in the relatively low-temperature zone, and passes through the variable temperature zone during transport, and the molten copper-nickel-tin alloy medium with carbon dissolved in the pipeline in the variable temperature zone is cooled to 420°C to keep the carbon in an unsaturated precipitation state; In the relatively low temperature area, the medium...

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Abstract

The invention provides a preparation method for directly depositing and growing graphene on a liquid bed in a variable-temperature area. Under protective gas, a solvent of the liquid bed in the variable-temperature area is a molten medium and a solute of the liquid bed in the variable-temperature area is atomic carbon; the molten medium consists of one or more substances with boiling point higher than carbon cracking temperature and melting point lower than the melting point of a target substrate; during work, the medium is heated to be in a molten state; the variable-temperature area is divided into a relative high-temperature area, a transitional variable-temperature area and a relative low-temperature area; the working temperature of the molten medium in the relative high-temperature area is higher than the carbon cracking temperature, the carbon source is activated and cracked in the relative high-temperature area, atomic carbon formed after cracking is dissolved into the molten medium, and the molten medium, in which the atomic carbon is dissolved, is cooled by the transitional variable-temperature area and is conveyed to the relative low-temperature area; and in the relative low-temperature area, the working temperature of the molten medium is slightly higher than or equal to the supersaturated precipitation temperature of the atomic carbon. The graphene can grow on the target substrate continuously and directly and does not need to be transferred, and the characteristics of excellent quality of a graphene film, low preparation cost, high efficiency and little pollution are achieved.

Description

technical field [0001] The invention relates to the field of preparation of new materials, in particular to a preparation method for directly depositing and growing graphene on a liquid bed in a variable temperature zone. Background technique [0002] Graphene is a carbon atom with sp 2 A two-dimensional crystal with a honeycomb lattice formed by hybridization. In 2004, Andre Geim and Konstantin Novoselov of the University of Manchester successfully separated graphene from graphite, for which they won the 2010 Nobel Prize in Physics. [0003] Graphene has excellent properties. First, the specific surface area of ​​graphene is very large, up to 2630m 2 / g. Second, carbon atoms in graphene are represented by sp 2 Each carbon atom and its adjacent three carbon atoms form a stable carbon-carbon bond through a σ bond, so that graphene has extremely high mechanical properties, its Young's modulus can reach 1100GPa, and its fracture strength can reach Up to 130GPa. Again, th...

Claims

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Application Information

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IPC IPC(8): C30B19/02C30B29/02C30B29/64
CPCC30B19/02C30B29/02C30B29/64
Inventor 孙旭阳
Owner 孙旭阳
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