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Solar cell with high power generating efficiency on basis of electrochromic device and manufacturing method thereof

A technology of electrochromic devices and solar cells, which is applied in the field of solar power generation and can solve the problems of low power generation efficiency of photovoltaic cells

Inactive Publication Date: 2018-02-27
上海耐相智能科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, the power generation efficiency of existing photovoltaic cells is still relatively low.

Method used

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  • Solar cell with high power generating efficiency on basis of electrochromic device and manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0068] Assemble the solar cell component 10 and the electric control terminal 20

[0069] Making solar component 10 includes:

[0070] (1) WO 3 Nano film 5 material electrochromic electrode preparation:

[0071] a. Magnetron sputtering a fluorine-doped tin oxide (FTO) film 2 on the surface of tempered glass 1 with a specific size, with a thickness of about 320nm;

[0072] b. Perform high-temperature annealing treatment on it to obtain FTO conductive glass with higher strength, then ultrasonically clean the FTO conductive glass for 15 minutes in the order of ultrapure water, acetone, and ethanol, and dry it for later use; then, use magnetron sputtering method Coating W film on FTO glass with a thickness of 220nm; W film is used as WO 3 a growth source for the nanowires;

[0073] c. Prepare a 0.2mol / L sodium tungstate aqueous solution, then add 3mol / L hydrochloric acid dropwise until no precipitation occurs, and then dissolve the obtained precipitate in hydrogen peroxide to ...

Embodiment 2

[0088] Assemble the solar cell component 10 and the electric control terminal 20

[0089] Making solar component 10 includes:

[0090] (1) WO 3 Nano film 5 material electrochromic electrode preparation:

[0091] a. Magnetron sputtering fluorine-doped tin oxide (FTO) film 2 on the surface of tempered glass 1 with a specific size, with a thickness of about 360nm;

[0092]b. Perform high-temperature annealing treatment on it to obtain FTO conductive glass with higher strength, then ultrasonically clean the FTO conductive glass for 15 minutes in the order of ultrapure water, acetone, and ethanol, and dry it for later use; then, use magnetron sputtering method Coating W film on FTO glass with a thickness of 200nm; W film is used as WO 3 a growth source for the nanowires;

[0093] c. Prepare a 0.2mol / L sodium tungstate aqueous solution, then add 3mol / L hydrochloric acid dropwise until no precipitation occurs, and then dissolve the obtained precipitate in hydrogen peroxide to obt...

Embodiment 3

[0108] Assemble the solar cell component 10 and the electric control terminal 20

[0109] Making solar component 10 includes:

[0110] (1) WO 3 Nano film 5 material electrochromic electrode preparation:

[0111] a. Magnetron sputtering a fluorine-doped tin oxide (FTO) film on the surface of tempered glass 1 with a specific size, with a thickness of about 340nm;

[0112] b. Perform high-temperature annealing treatment on it to obtain FTO conductive glass with higher strength, then ultrasonically clean the FTO conductive glass for 15 minutes in the order of ultrapure water, acetone, and ethanol, and dry it for later use; then, use magnetron sputtering method Coating W film on FTO glass with a thickness of 210nm; W film is used as WO 3 a growth source for the nanowires;

[0113] c. Prepare a 0.2mol / L sodium tungstate aqueous solution, then add 3mol / L hydrochloric acid dropwise until no precipitation occurs, and then dissolve the obtained precipitate in hydrogen peroxide to ob...

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Abstract

The invention discloses a solar cell with high power generating efficiency on the basis of an electrochromic device and a manufacturing method thereof. According to the solar cell, the structure and manufacturing process of the electrochromic device are both improved, so that the prepared solar cell with the high power generating efficiency on the basis of the electrochromic device has the advantages that automatic energy supply can be achieved, the conversion efficiency of optical and electric energies is high, the service life is prolonged, and the anti-freezing performance is great. The method is simple, easy to operate and capable of providing convenience for industrialized production. At the room temperature, a 1,000 W xenon lamp (Oriel 91192, USA) capable of simulating the sunlight as the light source is used, a Keithly 2400 source meter is adopted, and according to a measurement result under the situation that the radiation intensity is 100 W / cm<2> and the illumination area of the cell body is 0.25 cm<2>, the conversion efficiency of the optical and electric energies is 8.29-10.58%, and after the steps above are repeated 5,000 times, the conversion efficiency of the opticaland electric energies is measured as 8.01-10.56%.

Description

technical field [0001] The invention belongs to the field of solar power generation, and more specifically relates to a solar cell with high power generation efficiency based on an electrochromic device and a manufacturing method thereof. Background technique [0002] Solar cells, also known as "solar chips" or "photovoltaic cells", are photoelectric semiconductor sheets that use sunlight to generate electricity directly. As long as it is illuminated by light, it can output voltage instantly and generate current when there is a loop. In physics, it is called solar photovoltaic (Photovoltaic, photo light, voltages volts, abbreviated as PV), or photovoltaic for short. [0003] A solar cell is a device that directly converts light energy into electrical energy through the photoelectric effect or photochemical effect. Thin-film solar cells that work on the photoelectric effect are the mainstream, while practical solar cells that work on the photochemical effect are still in th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02F1/155G02F1/163H01G9/042H01G9/20
CPCG02F1/155G02F1/163H01G9/204H01G9/2059Y02E10/542
Inventor 张健敏
Owner 上海耐相智能科技有限公司
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