A large-area perovskite solar cell preparation device and preparation method

A technology for a solar cell and a preparation device, which is applied in the field of solar cell technology preparation, can solve the problems of high requirements for precise and controllable film growth, the inability to achieve large-area production by spin coating, and the inapplicability of industrial production, etc., and is conducive to rapid drying. , The effect of saving process operation time and high production efficiency

Active Publication Date: 2022-02-15
YANGZHOU UNIV +2
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Problems solved by technology

[0002] The photoelectric conversion efficiency of perovskite solar cells has risen from 3.8% to 24.2% in 10 years, which has the value of industrialization. However, most of the preparation methods of perovskite solar cells in the current experiment, especially the photoelectric conversion efficiency exceeds 20%. % of the perovskite solar cell preparation methods are mostly one-step anti-solvent method, two-step spin-coating method, etc. However, the spin-coating method cannot achieve large-scale production
Some large-area perovskite preparation methods, such as CVD, slit coating, doctor blade coating, and solution extrusion, have been developed. Although these methods can achieve large-area perovskite films, their film quality Still lower than the spin coating method, for example, the CVD method has high requirements for precise and controllable film growth, and the solution-based coating method, the wet film cannot use anti-solvent to promote crystallization in a large area. Therefore, there is currently a lack of large-scale Production methods and corresponding equipment
[0003] The prior art provides a scraping coating equipment and a thin film preparation method applied to the preparation of perovskite batteries, which can be used to prepare large-area thin films or layered structures; the prior art also provides a flexible coating based on a roll coating process. A preparation method for large-area perovskite solar cells, which realizes the preparation of flexible large-area perovskite solar cells by adjusting the roll coating process; however, the above two preparation methods do not address the key issue of how to deal with the wet film after coating. and
The prior art also provides a device for preparing the perovskite layer, which uses a vacuum buffer tank to achieve rapid vacuum. Although the pressure can be reduced rapidly and the film quality can be improved, according to the ideal gas equation, if the atmospheric pressure is reduced to 10Pa, The buffer tank must be at least 10,000 times larger than the volume of the vacuum chamber. It takes a long time to evacuate such a huge buffer tank to the order of 10Pa, which is obviously not suitable for industrial production.

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Embodiment Construction

[0033] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments, but the protection scope of the present invention is not limited thereto.

[0034] A large-area perovskite solar cell preparation device according to the present invention comprises in turn: FTO scribing P1 module 1, electron transport layer coating module 2, infrared radiation module 3, electron transport layer cooling module 4, perovskite precursor Solution slit coating module 5, perovskite wet film vacuum distillation module 6, composite light wave annealing module 7, perovskite layer cooling module 8, hole transport layer coating module 9, hole layer drying module 10, mechanical The scribing P2 module 11 , the electrode evaporation module 12 and the mechanical scribing P3 module 13 , and the FTO glass carrier 102 pass through each process module sequentially by using the transfer roller 101 .

[0035] FTO scribing P1 module 1 adopts laser 103...

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Abstract

The invention provides a large-area perovskite solar cell preparation device and preparation method, the device sequentially includes: FTO scribing P1 module, electron transport layer coating module, infrared radiation module, electron transport layer cooling module, perovskite Precursor solution slit coating module, perovskite wet film vacuum distillation module, composite light wave annealing module, perovskite layer cooling module, hole transport layer coating module, hole layer drying module, mechanical scribing P2 module, Electrode evaporation module and mechanical scribing P3 module, wherein the perovskite wet film vacuum distillation module includes: cavity, first transfer gate, second transfer gate, pneumatic piston and multiple sets of parallel booster pump devices, the first transfer The door and the second transfer door are respectively arranged on both sides of the cavity for the passage of the FTO glass carrier, the pneumatic piston is sealed with the cavity, and multiple sets of parallel booster pump devices are connected with the cavity. The present invention can handle the wet film and can Realize the large-scale production of perovskite solar cells.

Description

technical field [0001] The invention relates to the technical preparation field of solar cells, in particular to a large-area perovskite solar cell preparation device and a preparation method. Background technique [0002] The photoelectric conversion efficiency of perovskite solar cells has risen from 3.8% to 24.2% in 10 years, which has the value of industrialization. However, most of the preparation methods of perovskite solar cells in the current experiment, especially the photoelectric conversion efficiency exceeds 20%. % of the perovskite solar cell preparation methods are mostly one-step anti-solvent method, two-step spin coating method, etc. However, the spin coating method cannot achieve large-scale production. Some large-area perovskite preparation methods, such as CVD, slit coating, doctor blade coating, and solution extrusion, have been developed. Although these methods can achieve large-area perovskite films, their film quality Still lower than the spin coating...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L21/67H01L51/48
CPCH01L21/67155H10K71/00H10K71/40H10K71/421H10K71/811Y02E10/549Y02P70/50
Inventor 丁建宁袁宁一王书博程广贵
Owner YANGZHOU UNIV
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