Nickel foil mesh for transmission microscope and scanning microscope and production method of nickel foil mesh

A technology of scanning microscope and transmission microscope, which is applied in the field of nickel foil mesh, can solve the problems of non-disclosure, etc., and achieve the effects of not easy to be polluted, material strength and high temperature resistance, and clear mesh

Active Publication Date: 2013-06-05
BEIJING XINXING BRAIM TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

It can be seen that the patent application does not disclose the technical characteristics that the material in claim 1 i

Method used

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  • Nickel foil mesh for transmission microscope and scanning microscope and production method of nickel foil mesh
  • Nickel foil mesh for transmission microscope and scanning microscope and production method of nickel foil mesh
  • Nickel foil mesh for transmission microscope and scanning microscope and production method of nickel foil mesh

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Experimental program
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Effect test

Embodiment 1

[0025] Select a nickel foil with a thickness of 0.01mm to make it according to the following steps to obtain figure 1 The outer diameter shown is 3mm, the mesh number is 600 mesh, and the mesh is a nickel foil mesh with square holes.

[0026] The first step (1) is drawing: first draw manually according to the requirements of the required nickel mesh, then transfer the manual drawing sketch to the computer for accurate drawing, and then print out the black and white negative film at a ratio of 1:1; form a sheet on the negative film The picture opposite to the real nickel mesh is also called the positive and negative film, which is used as the target for making the real thing.

[0027] Step (2) is nickel foil treatment: the surface of the nickel foil is cleaned, degreased, and dried with an ordinary kitchen fume net; the ordinary kitchen fume net is purchased from Beijing Lvsan Chemical Co., Ltd., and its model is Q / HDLSH008.

[0028] The (3) step is gluing: use ultraviolet n...

Embodiment 2

[0038] A nickel foil with a thickness of 0.05mm was selected and produced according to the following steps to obtain figure 2 The outer diameter shown is 3.05mm, the number of mesh holes is 1 mesh, and the mesh is a nickel foil mesh with round holes.

[0039] The first step (1) is drawing: first draw manually according to the requirements of the required nickel mesh, then transfer the manual drawing sketch to the computer for accurate drawing, and then print out the black and white negative film at a ratio of 1:1; form a sheet on the negative film The picture opposite to the real nickel mesh is also called the positive and negative film, which is used as the target for making the real thing.

[0040] Step (2) is nickel foil treatment: the surface of the nickel foil is cleaned, degreased, and dried with an ordinary kitchen fume net; the ordinary kitchen fume net is purchased from Beijing Lvsan Chemical Co., Ltd., and its model is Q / HDLSH008.

[0041] The (3) step is gluing:...

Embodiment 3

[0051] A nickel foil with a thickness of 0.02mm was selected and produced according to the following steps to obtain image 3 The outer diameter shown is 3 mm, the number of mesh holes is 150 mesh, and the mesh is a nickel foil mesh with honeycomb holes.

[0052] The first step (1) is drawing: first draw manually according to the requirements of the required nickel mesh, then transfer the manual drawing sketch to the computer for accurate drawing, and then print out the black and white negative film at a ratio of 1:1; form a sheet on the negative film The picture opposite to the real nickel mesh is also called the positive and negative film, which is used as the target for making the real thing.

[0053] Step (2) is nickel foil treatment: the surface of the nickel foil is cleaned, degreased, and dried with an ordinary kitchen fume net; the ordinary kitchen fume net is purchased from Beijing Lvsan Chemical Co., Ltd., and its model is Q / HDLSH008.

[0054] The (3) step is glui...

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Abstract

The invention provides a nickel foil mesh for a transmission microscope and a scanning microscope. The thickness of the nickel foil mesh is from 0.01 mm to 0.05 mm and the number of mesh holes is from 1 mesh to 600 meshes. A production method of the nickel foil mesh comprises drawing, nickel foil processing, performing photoresist, pre-baking, performing exposure, developing, rinsing, post-baking, etching and removing of photoresist. The production method of the nickel foil mesh for the transmission microscope and the scanning microscope has the advantage of enabling obtained mesh holes of electron microscope nickel foil meshes to be clear and hole walls of the electron microscope nickel foil meshes to be smooth.

Description

technical field [0001] The invention relates to a nickel foil net used for a transmission microscope and a scanning microscope and a manufacturing method thereof. Background technique [0002] The copper mesh used in transmission microscopes and scanning microscopes developed before 1975 is far from meeting the needs of more scientific research. On the one hand, in the field of material science research, the temperature is as high as 2000 degrees during the production process of the sample, which requires the surface to be resistant to acid and alkali. However, the traditional copper grid is not resistant to high temperature, the hardness is not enough, and the surface is easily corroded, which makes it impossible to carry out analyze. On the other hand, in the field of scientific research, such as the field of biochemical research, since the field of nanochemistry plays an important role in the research and observation of the structure of nanoparticle carbon nanotubes, mor...

Claims

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Application Information

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IPC IPC(8): H01J37/20H01J9/00
Inventor 张继明田连建
Owner BEIJING XINXING BRAIM TECH
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