Method for effectively preparing high-orientation and high-compactness two-dimensional material thin film

A technology of two-dimensional materials and material thin films, which is applied in the preparation and application of two-dimensional materials, can solve the problems of unsuitable large-area and thick film preparation, small driving force, and difficulty in self-assembly and orientation of two-dimensional materials.

Active Publication Date: 2018-09-25
深圳烯材科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The two-dimensional materials in the film obtained by vacuum filtration and layer-by-layer self-assembly process have better orientation, but these two methods have low efficiency and are not suitable for the preparation of large-area thicker films
Although the other two processes have high film forming efficiency, the driving force to drive the directional self-assembly of two-dimensional materials is small and uncontrollable, and the arrangement of the two-dimensional materials inside the film is relatively chaotic.
Especially when these methods are used to prepare two-dimensional materials and polymer composite films, the self-assembly orientation of two-dimensional materials is more difficult due to the high viscosity of the solution.
In addition, the density of the film obtained by the above method still needs to be further improved to improve the contact between two-dimensional materials, so as to transfer the intrinsic properties of micron-sized two-dimensional materials to macroscopic bulk materials to the greatest extent.

Method used

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  • Method for effectively preparing high-orientation and high-compactness two-dimensional material thin film
  • Method for effectively preparing high-orientation and high-compactness two-dimensional material thin film
  • Method for effectively preparing high-orientation and high-compactness two-dimensional material thin film

Examples

Experimental program
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Effect test

Embodiment 1

[0037] In this embodiment, a quartz glass tube with an inner diameter of 110 mm is used as the casting mold, the rotation speed of the mold is set at 500 r / min, and the auxiliary heating temperature is set at 80° C. A graphene oxide aqueous solution (average sheet size of about 1 micron, concentration of 2 mg / ml) is continuously added to the casting mold, and the solution is evaporated to dryness to obtain a film with a film thickness of 3 μm to 20 μm. Cut the film along the axis and peel it off from the mold to obtain a graphene oxide film with a strength of about 90 MPa.

Embodiment 2

[0039] The difference from Example 1 is:

[0040] In this embodiment, a quartz glass tube with an inner diameter of 110 mm is used as the casting mold, the rotation speed of the mold is set at 1000 r / min, and the auxiliary heating temperature is set at 80° C. A graphene oxide aqueous solution (average sheet size of about 1 micron, concentration of 2 mg / ml) is continuously added to the casting mold, and the solution is evaporated to dryness to obtain a film with a film thickness of 3 μm to 20 μm. After the film is cut along the axis, it is peeled off from the mold to obtain a graphene oxide film whose strength is increased to 125MPa.

Embodiment 3

[0042] The difference from Example 1 is:

[0043] In this embodiment, a quartz glass tube with an inner diameter of 110 mm is used as the casting mold, the rotation speed of the mold is set at 1500 r / min, and the auxiliary heating temperature is set at 80° C. A graphene oxide aqueous solution (average sheet size of about 1 micron, concentration of 2 mg / ml) is continuously added to the casting mold, and the solution is evaporated to dryness to obtain a film with a film thickness of 3 μm to 20 μm. After the film is cut along the axis and peeled off from the mold, a highly oriented and dense graphene oxide film is obtained, and its strength is further increased to 145MPa.

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Abstract

The invention relates to the field of preparation and application of two-dimensional materials, in particular to a method for effectively preparing a high-orientation and high-compactness two-dimensional material thin film. The method comprises the following steps: taking a circular tube with a smooth inner surface as a casting die; pouring a solution which contains a two-dimensional material intothe die when the die rotates in the peripheral direction at high speed; uniformly coating the inner surface of the die with the solution by using centrifugal force; forming shear force which drives the two-dimensional material to be regularly arranged layer by layer in an oriented manner in the peripheral direction in the solution in a centrifugal rotating process; and meanwhile, driving the two-dimensional material to be accumulated at high compactness by the centrifugal force so as to obtain the two-dimensional material thin film with high orientation and high compactness. The method is suitable for preparing various two-dimensional materials such as graphene, and composite thin films and laminated heterostructure thin films of the two-dimensional materials; electric property, heat property, mechanical property and the like of the thin film are greatly improved; and the method is used in the field of high-performance electric conduction / heat-conduction thin films, heat management materials, high-strength thin films, electronic / optoelectronic devices, compact energy storage, gas / ion separating films, proton transmitting films and the like.

Description

Technical field: [0001] The invention relates to the field of preparation and application of two-dimensional materials, and specifically relates to a new method for efficiently preparing highly oriented and dense two-dimensional material films by using a centrifugal casting process. Background technique: [0002] Due to the unique two-dimensional structural characteristics, two-dimensional materials such as graphene have a variety of excellent physical and chemical properties different from their bulk materials, and are widely used in electronics, optoelectronics, flexible display, sensing, energy storage, catalysis, separation membrane, thermal management , functional coatings, composite materials and other fields have broad application prospects. However, 2D materials prepared by chemical exfoliation are often only a few microns in size, so their assembly into macroscopically controllable macroscopic bulk materials is a prerequisite for their application. It is well known...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29C41/04B29C41/38B29L7/00
CPCB29C41/04B29C41/38B29L2007/002B29K2075/00B29C41/042B29C41/42B29C41/46B29L2007/008B29C41/003B29C69/001B29C41/22
Inventor 任文才钟晶成会明
Owner 深圳烯材科技有限公司
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