Bidirectional wave absorption transparent electromagnetic shielding device based on graphene meshes and transparent conductive films

A technology of transparent conductive film and graphene network, which is applied in the fields of magnetic/electric field shielding, electrical components, chemical instruments and methods, etc., can solve the problem that it is difficult to balance high light transmittance and strong microwave shielding efficiency, transparency and conductive shielding ability. Restriction, secondary pollution and other issues, to achieve the effect of electromagnetic shielding light transmission performance, good light transmission and shielding performance, and improve shielding performance

Active Publication Date: 2017-02-15
HARBIN INST OF TECH
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Problems solved by technology

[0014] The purpose of the present invention is to overcome the deficiencies of the above-mentioned existing transparent electromagnetic shielding technology, especially for the mutual restriction of transparency and conductive shielding ability in the existing reflective transparent shielding technology, it is difficult to take into account high light transmittance and strong microwave shielding efficiency, and reflective electromagnetic shielding technology To solve the problem of electromagnetic leakage and secondary pollution caused by signals, a two-way absorbing transparent electromagnetic shielding device based on graphene grid and transparent conductive film has been developed to achieve the purpose of having two-way low electromagnetic reflection, strong electromagnetic shielding and high light transmission performance at the same time

Method used

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  • Bidirectional wave absorption transparent electromagnetic shielding device based on graphene meshes and transparent conductive films
  • Bidirectional wave absorption transparent electromagnetic shielding device based on graphene meshes and transparent conductive films
  • Bidirectional wave absorption transparent electromagnetic shielding device based on graphene meshes and transparent conductive films

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Embodiment

[0041] The electromagnetic shielding device is composed of a transparent absorption layer 3A, a transparent medium 4A, a transparent reflection layer 5, a transparent medium 6B, and a transparent absorption layer 7B that are sequentially overlapped and arranged in parallel; the transparent absorption layer 3A is composed of a single layer arranged in parallel. Graphene grid film A10, transparent medium C11 and single-layer graphene grid film B12 are formed, the transparent reflection layer is made of micro-ring metal grid 14, and the transparent absorption layer B7 is composed of a single-layer graphene grid film C13 composition.

[0042] The technical effect of the present invention is: when the electromagnetic shielding efficiency of metal grid is 20dB, if radio frequency radiation comes from the transparent absorbing layer A3 outside of electromagnetic shielding device, the electromagnetic shielding efficiency of the present invention is 24.2dB, and absorption loss accounts ...

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Abstract

A bidirectional wave absorption transparent electromagnetic shielding device based on graphene meshes and transparent conductive films belongs to the optical transparent member electromagnetic shielding technology field and utilizes the different light transmission and microwave shielding characteristics performed by the graphene mesh films when the graphene mesh films have different mesh unit hole area ratios to organically combine the low-reflection and partial absorption microwave characteristics of the graphene mesh films with the strong electromagnetic reflection characteristics of the high-light transmission conductive films, and the graphene mesh films are placed at the two sides of the transparent conductive films, thereby forming a multilayer structure. The transparent conductive films are used as the transparent reflection layers, and N layers of graphene mesh films separated by the transparent mediums are used as the transparent absorption layers. By the structure, the radio frequency radiation coming from the two sides can penetrate the transparent absorption layers simultaneously and repeatedly to be absorbed strongly, so that the strong shielding and low-reflection characteristics are realized, and the visible light has a high light transmission rate by transmitting the multilayer structure once. The electromagnetic shielding optical window solves the problem that a conventional transparent electromagnetic shielding method can not consider the bidirectional low-electromagnetic reflection, the strong electromagnetic shielding and the high light transmission simultaneously.

Description

technical field [0001] The invention belongs to the field of electromagnetic shielding of optical transparent parts, in particular to a bidirectional wave-absorbing transparent electromagnetic shielding device based on a graphene grid and a transparent conductive film. Background technique [0002] With the development of radio, television, wireless communication technology and microwave technology, a large number of radio frequency devices are equipped in various places of human activities, and the spectrum range continues to widen, and the intensity doubles, which not only interferes with electronic equipment, but also affects human health. threaten. This invisible and intangible "electromagnetic pollution" directly acts on machines or human bodies, and is a serious "invisible killer". It has become the fifth largest pollution after air pollution, water pollution, solid waste pollution and noise pollution. Electromagnetic shielding (including absorption and reflection) is...

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Application Information

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IPC IPC(8): H05K9/00B32B9/04B32B15/04B32B15/08B32B17/06B32B3/12B32B33/00
Inventor 谭久彬陆振刚王赫岩
Owner HARBIN INST OF TECH
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