Electrostatic condenser based on nano electrodes and preparation method of electrostatic condenser

A technology of electrostatic capacitors and nano-electrodes, applied in fixed capacitor electrodes, multiple fixed capacitors, fixed capacitor dielectrics, etc., can solve problems such as inability to guarantee product performance consistency, difficulty in reducing product preparation costs, and unfavorable commercial application of products. Achieve the effects of reducing investment and production costs, high breakdown voltage, and high working voltage

Active Publication Date: 2013-07-24
HEFEI INSTITUTES OF PHYSICAL SCIENCE - CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, no matter it is the product or its preparation method, there are deficiencies. First, although the product has a very high electrode specific surface area, it is because the intermediate alumina is used as the dielectric layer, and the nitrogen inside and outside the dielectric layer TiO is composed of a pair of electrodes and a capacitor array located in the nanopores of the anodized aluminum template, so its external electrical connection is a difficult problem, which greatly increases the difficulty of practical application; secondly, atomic layer deposition technology is difficult Synthesizing tubular materials with uniform wall thickness in nanoscale holes, especially the synthesis of multilayer sleeved tubular materials with uniform wall thickness in nanoscale holes, cannot guarantee the consistency of product performance; finally, the use of atomic layer The high price of deposition technology equipment makes it difficult to reduce the production cost of the product, which is not conducive to the commercial application of the product

Method used

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  • Electrostatic condenser based on nano electrodes and preparation method of electrostatic condenser
  • Electrostatic condenser based on nano electrodes and preparation method of electrostatic condenser
  • Electrostatic condenser based on nano electrodes and preparation method of electrostatic condenser

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Effect test

Embodiment 1

[0023] The concrete steps of preparation are:

[0024]Step 1, the aluminum sheet is ultrasonically cleaned with acetone, ethanol and deionized water, and then blown dry with nitrogen; then it is placed in a sulfuric acid solution with a temperature of 0°C and a concentration of 0.2mol / L, under a DC voltage of 25V Anodized for 2h, the approximate figure 1 Primary alumina template shown in a. Then put the primary alumina template in a mixed solution of sulfuric acid solution with a concentration of 0.7mol / L and an aluminum sulfate solution with a concentration of 0.15mol / L at a temperature of 20°C. 2 Rise to 160mA / cm 2 After 4min of anodic oxidation under the DC constant current; it is placed in a saturated solution of tin tetrachloride to remove the unoxidized aluminum on the back, and an approximate figure 1 As shown in b, the first hole array is arranged on one side, and the arc-shaped barrier layer formed by the holes of the first hole array on the back is provided with a...

Embodiment 2

[0027] The concrete steps of preparation are:

[0028] Step 1, the aluminum sheet is ultrasonically cleaned with acetone, ethanol and deionized water, and then blown dry with nitrogen; then it is placed in a sulfuric acid solution with a temperature of 0.7°C and a concentration of 0.25mol / L, under a DC voltage of 29V Anodized for 1.8h, obtained approximately figure 1 Primary alumina template shown in a. Then put the primary alumina template in a mixed solution with a concentration of 0.75 mol / L of sulfuric acid solution and a concentration of 0.13 mol / L of aluminum sulfate solution at a temperature of 23°C. 2 Rise to 160mA / cm 2 After 3.5min of anodic oxidation under the DC constant current; it is placed in a saturated solution of tin tetrachloride to remove the unoxidized aluminum on the back, and an approximate figure 1 As shown in b, the first hole array is arranged on one side, and the arc-shaped barrier layer formed by the holes of the first hole array on the back is pr...

Embodiment 3

[0031] The concrete steps of preparation are:

[0032] Step 1, the aluminum sheet is ultrasonically cleaned with acetone, ethanol and deionized water, and then blown dry with nitrogen; then it is placed in a sulfuric acid solution with a temperature of 1.5°C and a concentration of 0.3mol / L, under a DC voltage of 33V Anodized for 1.5h, obtained as figure 1 Primary alumina template shown in a. Then put the primary alumina template in a mixed solution with a concentration of 0.8 mol / L of sulfuric acid solution and a concentration of 0.1 mol / L of aluminum sulfate solution at a temperature of 25°C. 2 Rise to 160mA / cm 2 After anodizing for 3min under a DC constant current; place it in a saturated solution of tin tetrachloride to remove the unoxidized aluminum on the back, and obtain the following figure 1 As shown in b, the first hole array is arranged on one side, and the arc-shaped barrier layer formed by the holes of the first hole array on the back is provided with a secondar...

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Abstract

The invention discloses an electrostatic condenser based on nano electrodes and a preparation method of the electrostatic condenser. The condenser comprises two groups of pore arrays which are inserted into each other in parallel, are not communicated with each other, are provided with openings towards different surfaces and are arranged in an anode aluminum oxide template, wherein carbon nano tubes electrically connected with conductive films covering the surfaces of the pore arrays are deposited in pores. The method comprises the following steps of: preparing a secondary aluminum oxide template in a secondary anode oxidation method, wherein one surface of the template is provided with a first pore array, and the back of the template is provided with gaps which are parallel to pores of the first pore array and formed in the circumference of an arc barrier layer formed by the pores of the first pore array; corroding the back of the secondary aluminum oxide template in an acidic copper chloride solution to obtain the anode aluminum oxide template on one surface of which the first pore array is arranged and on the back of which a second pore array is arranged; and depositing the carbon nano tubes in the pores of the first pore array and the second pore array by a chemical vapor deposition technology, and performing evaporation on the conductive films on the two surfaces of the anode aluminum oxide template, thus obtaining the target product. The electrostatic condenser can be widely applied to the field of energy storage and utilization.

Description

technical field [0001] The invention relates to an electrostatic capacitor and a preparation method thereof, in particular to an electrostatic capacitor based on nanometer electrodes and a preparation method thereof. Background technique [0002] An electrostatic capacitor is an energy storage device that stores charges on the surface of electrodes through electrostatic interaction. Generally, electrostatic capacitors only have a low energy storage density because only the electrode surface can store charges. With the emergence of nanomaterials and technologies, people use porous materials to achieve high specific surface area of ​​electrodes, which greatly improves the capacitance and energy storage density of electrostatic capacitors, such as Nanotubular metal insulator metal capacitor arrays for energy storage, Nature Nanotechnology , 2009, 4, 292. (Nanotubular metal-insulator-metal capacitor arrays for energy storage, Nature Nanotechnology, 2009, Vol. 4, p. 292). The c...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01G4/10H01G4/008H01G4/38C25D11/06C25D11/12C23C16/26
Inventor 韩方明孟国文胡小晔赵相龙吴兵
Owner HEFEI INSTITUTES OF PHYSICAL SCIENCE - CHINESE ACAD OF SCI
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