Energy-stored photovoltaic battery and manufacturing method thereof

A photovoltaic cell and energy storage technology, applied in the energy field, can solve the problems of limiting the miniaturization of solar cells and the difficulty of carrying external devices, and achieve good photoelectric conversion efficiency and power storage capacity, good power storage function, and reduced thickness.

Inactive Publication Date: 2013-09-11
HEFEI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, the existing solar cells are generally only light energy converters, which only convert solar energy into electrical energy output, and the storage of electrical energy is only an external energy storage device with a single function. Because the external device is not easy to carry, it directly limits solar energy. The development of battery miniaturization

Method used

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  • Energy-stored photovoltaic battery and manufacturing method thereof

Examples

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Comparison scheme
Effect test

Embodiment 1

[0027] Add 10 mL of tetrabutyl titanate into a beaker, add 10 mL of absolute ethanol, add 5 mL of concentrated sulfuric acid under ice bath, stir to mix evenly to obtain a mixed solution, wait for the temperature of the mixed solution to drop to room temperature, and then add 10 mL of formaldehyde solution (mass fraction 35%), after waiting for 10min, add 10g of powdered resorcinol, 1g of succinic acid and 0.1g of hexadecyltrimethylammonium bromide, stir vigorously with a stirrer for 10 minutes, and place the mixture in vacuum drying at 150°C In the box for 2 hours, then take out the mixture, grind for 1 hour, and burn the obtained solid at 850°C for 6 hours under the condition of liquid seal to obtain uniform black carbon-rich TiO 2 ; To the uniform black carbon-rich TiO 2 Add 0.5 mL of 0.15 mol / L acetic acid solution and grind for 2 hours until it becomes viscous, apply it on the conductive surface of the top conductive glass substrate 1 at one time, and bake at 130°C for 0....

Embodiment 2

[0032] Add 10mL tetrabutyl titanate into a beaker, add 10mL absolute ethanol, add 5mL concentrated sulfuric acid under ice bath, stir to mix evenly to obtain a mixed solution, wait for the temperature of the mixed solution to drop to room temperature, then add 15mL formaldehyde solution (mass fraction 35%), after waiting for 10min, add 10g of powdered resorcinol, 1.5g of succinic acid and 0.1g of hexadecyltrimethylammonium bromide, stir vigorously with a stirrer for 10 minutes, and place the mixture in a vacuum at 150°C Dry the oven for 2 hours, then take out the mixture, grind for 1 hour, and burn the obtained solid at 850°C for 6 hours under the condition of liquid seal to obtain uniform black carbon-rich TiO 2 , to the uniform black carbon-rich TiO 2 Add 0.5 mL of 0.15 mol / L acetic acid solution and grind for 2 hours until it becomes viscous, apply it on the conductive surface of the top conductive glass substrate 1 at one time, and bake at 130°C for 0.5 hours on the surfac...

Embodiment 3

[0037] Add 10mL tetrabutyl titanate into a beaker, add 10mL absolute ethanol, add 5mL concentrated sulfuric acid under ice bath, stir to mix evenly to obtain a mixed solution, wait for the temperature of the mixed solution to drop to room temperature, then add 20mL aqueous formaldehyde (mass fraction 35%), after waiting for 10min, add 10g of powdered resorcinol, 2g of succinic acid and 0.1g of hexadecyltrimethylammonium bromide, stir vigorously with a stirrer for 10 minutes, and place the mixture in a 150°C vacuum-dried In the box for 2 hours, then take out the mixture, grind for 1 hour, and burn the obtained solid at 850°C for 6 hours under the condition of liquid seal to obtain uniform black carbon-rich TiO 2 , to the uniform black carbon-rich TiO 2 Add 0.5 mL of N-methylpyrrolidone and grind for 2 hours until viscous, apply it on the conductive surface of the top conductive glass substrate 1 at one time, bake at 130°C for 0.5 hours on the conductive surface of the top condu...

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Abstract

The invention discloses an energy-stored photovoltaic battery and a manufacturing method thereof. The energy-stored photovoltaic battery is sequentially provided with a positive electrode layer (2), a first electrolyte layer (3), a diaphragm (4), a second electrolyte layer (5) and a negative electrode layer (6) from a conductive surface of a top conductive glass substrate (1) to a conductive surface of a bottom conductive glass substrate (7). The positive electrode layer (2) is composed of carbon-rich TiO2 generated uniformly in situ. Compared with a common solar battery only used as a solar photoelectric converter, the energy-stored photovoltaic battery realizes that photoelectric conversion and electric energy storage are combined in the solar battery without accessories, thickness of the battery is greatly reduced, and development of simplification and ultra-thinning of the solar battery is facilitated.

Description

technical field [0001] The invention belongs to the technical field of energy, and relates to a solar cell and a preparation method thereof, in particular to an energy storage photovoltaic cell and a preparation method thereof. Background technique [0002] At present, with the increasingly serious energy and environmental crisis, seeking new renewable energy is becoming an urgent problem to be solved. Solar energy is inexhaustible, green and renewable, and has been widely used in industry, agriculture, military, aerospace, household appliances, and public facilities. However, due to its relatively high cost, large-scale use is restricted. economic constraints. Dye-sensitized titanium dioxide thin-film solar cells have the advantages of low cost, no environmental pollution, simple manufacturing process, and good stability, and have become the most promising alternative to silicon solar cells. [0003] The working principle of the dye-sensitized titanium dioxide thin film s...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01G9/20
Inventor 李学良王红柳罗梅肖正辉陈洁洁吴晓静谭常春李瀚星
Owner HEFEI UNIV OF TECH
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