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Carbon nanotube-silicon film laminated solar battery and preparation method thereof

A carbon nanotube thin film, solar cell technology, applied in nanotechnology, nanotechnology, nanotechnology for information processing, etc. The effect of transmission and broad application prospects

Active Publication Date: 2013-12-11
TSINGHUA UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Gobbo SD et al. (Gobbo SD, et al., Applied Physics Letters 2011, 98, 183113) dispersed single-walled carbon nanotubes into a solution, and then combined them with an amorphous film to form a heterojunction solar cell, but its performance Very low, the open circuit voltage is 0.2~0.5V, the conversion efficiency is less than 0.1%, and it cannot be practically applied

Method used

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  • Carbon nanotube-silicon film laminated solar battery and preparation method thereof
  • Carbon nanotube-silicon film laminated solar battery and preparation method thereof
  • Carbon nanotube-silicon film laminated solar battery and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] Example 1, Preparation and performance testing of carbon nanotube-silicon thin film stacked solar cells

[0035] 1) Evaporate a layer of 200nm thick indium tin oxide transparent conductive film on the glass substrate, and lead it out with a wire;

[0036] 2) sequentially depositing a 50nm thick N-type amorphous silicon layer, a 500nm thick I-type amorphous silicon layer and a 50nm thick P-type amorphous silicon layer on the transparent conductive film by plasma enhanced chemical vapor deposition;

[0037] 3) spreading a single-walled carbon nanotube film with a thickness of 200nm on the P-type amorphous silicon layer, and making the carbon nanotube film closely contact with the silicon film;

[0038] 4) An aluminum electrode with a thickness of 20nm is vapor-deposited on the carbon nanotube film, and drawn out with a wire to obtain a carbon nanotube-silicon film laminated solar cell.

[0039] Performance Testing:

[0040] Under standard light source (AM1.5, 100mW / cm ...

Embodiment 2

[0041] Example 2, Preparation and performance testing of carbon nanotube-silicon thin film stacked solar cells

[0042] 1) Evaporate a layer of 100nm thick indium tin oxide transparent conductive film on the glass substrate;

[0043] 2) sequentially depositing a 500nm thick N-type silicon thin film layer, a 10nm thick I-type silicon thin film layer and a 1500nm thick P-type silicon thin film layer on the transparent conductive film by plasma enhanced chemical vapor deposition;

[0044] 3) transferring the single-walled carbon nanotube film with a thickness of 200nm to the p-type silicon layer;

[0045] 4) An aluminum electrode with a thickness of 20nm is vapor-deposited on the carbon nanotube film, and drawn out with a wire to obtain a carbon nanotube-silicon film laminated solar cell.

[0046] 5) Detection and analysis under scanning electron microscope

[0047] See attached Figure 5

[0048] Performance Testing:

[0049] Under standard light source (AM1.5, 100mW / cm 2 ...

Embodiment 3

[0050] Example 3, Preparation and performance testing of carbon nanotube-silicon thin film stacked solar cells

[0051] 1) Evaporate a layer of 200nm thick indium tin oxide transparent conductive film on the glass substrate, and lead it out with a wire;

[0052] 2) On the transparent conductive film, a 100nm thick N-type amorphous silicon layer, an 800nm ​​thick I-type amorphous silicon layer, a 100nm thick P-type amorphous silicon layer and a 50nm thick N-type amorphous silicon layer were sequentially deposited by plasma-enhanced chemical vapor deposition layer;

[0053] 3) spreading a single-walled carbon nanotube film with a thickness of 300nm on the N-type amorphous silicon layer, and making the carbon nanotube film closely contact with the silicon film;

[0054] 4) Evaporating aluminum electrodes with a thickness of 50 nm on the carbon nanotube film and leading them out with wires to obtain a carbon nanotube-silicon film stacked solar cell.

[0055] Performance Testing:...

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Abstract

Provided are a solar cell and a method for preparing the same. The solar cell comprises a transparent substrate (5), a transparent conductive thin film layer (4), a silicon thin film layer (31), a carbon nanotube thin film layer (2) and a back electrode (1) laminated in sequence. The silicon thin film layer (31) is formed by at least two layers of silicon thin films (311, 312), and the silicon in the silicon thin film layers (311, 312) is amorphous silicon or microcrystalline silicon. The silicon thin film layer (31) forms a heterogeneous junction with the carbon nanotube thin film layer (2).

Description

technical field [0001] The invention relates to a carbon nanotube-silicon film laminated solar cell and a preparation method thereof. Background technique [0002] With the emergence of the energy crisis, people began to discover the importance of renewable energy, and renewable energy has become an issue that everyone pays more and more attention to. As one of the renewable clean energy sources, solar energy has been applied in various fields. Among them, the application of solar cells is particularly extensive, and the solar cells currently on the market are mainly based on silicon. Silicon solar cells are mainly divided into three types: monocrystalline silicon cells, polycrystalline silicon cells and amorphous (microcrystalline) silicon thin-film cells. Among them, silicon thin-film cells have the advantages of less material consumption, large area, low energy consumption, and low cost. to rapid development. At present, the photoelectric conversion efficiency of amorp...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L31/076H01L31/20
CPCY02E10/545H01L31/06H01L31/03762H01L31/03685H01L51/4213Y02E10/548H01L51/0048Y02E10/549B82Y10/00Y02P70/50H10K85/221H10K30/10H10K30/50
Inventor 韦进全王红光白曦贾怡朱宏伟王昆林吴德海
Owner TSINGHUA UNIV