CdTe nanometer crystalline heterojunction solar battery and manufacturing method thereof

A solar cell and nanocrystalline technology, applied in circuits, photovoltaic power generation, electrical components, etc., can solve the problems of difficulty in ensuring device stability, unfavorable separation and transmission of carriers, and decline in efficiency of nanocrystalline cells. The effect of thinning, realizing mass production, and easy mass production

Active Publication Date: 2013-10-09
SOUTH CHINA UNIV OF TECH
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Qin Donghuan and others have prepared ITO / CdTe(500nm) / Al Schottky junction solar cells by layer-by-layer spin-coating and sintering, and the energy conversion efficiency reaches 5.15%, which is the highest level of similar devices (S.Sun, H.M.Liu, Y.P.Gao , D.H.Qin, J.Materials.Chemistry., 2012, 517, 6853–6856.); Jasieniak et al. Introducing ZnO nanocrystals as the acceptor material, prepared CdTe-ZnO nanocrystal heterojunction cells with an efficiency of 7.3% and a certain degree of stability; it is worth noting that these CdTe nanocrystal solar cells, whether Schottky There are certain problems in both the structure and the heterojunction structure: the active layer CdTe is directly spin-coated on the ITO, and the light is incident from one side of the ITO, so the Schottky junction or p-n junction is on the other side away from the incident light. It is extremely unfavorable for the separation and transmission of carriers. Photogenerated carriers need to pass through a relatively thick active layer to reach the junction region, and recombination is inevitable during the transmission process, which is not conducive to making full use of the incident sunlight; on the other hand , ITO is used as the anode, and the cathode mainly uses low work function metals such as Al, which is easy to oxidize, and the stability of the device is difficult to be guaranteed.
Another relatively successful nanocrystalline solar cell is PbS-PbSe nanocrystals. In 2010, Sargent et al. (J.Tang, X.Wang, L.Brzozowski, D.A.R.Barkhouse, R.Debnath, L.Levina, E.H.Sargent, Adv.Mater.,2010,22,1398.) reported PbS nanocrystalline Schottky solar cells, the structure of the device is ITO / PbS / LiF / Al, and the short-circuit current and open-circuit voltage of the device are 14mA / cm 2 and 0.51V, the fill factor reaches 51%, and the corresponding efficiency reaches 3.6%; recent studies have increased the efficiency of this structure device to 4.07% by introducing organic interface materials; at the same time, the Sargent research group (J.Tang, H . Liu, D. Zhitomirsky, S. Hoogland, X. Wang, M. Furukawa, L. Levina, E. H. Sargent, Nano Lett, 12 (2012) 4889-4894.) By introducing TiO 2 The acceptor material forms a heterojunction battery with PbS, and the efficiency exceeds 7%. Most of the related work is published in Nature and its sub-journals. It is worth noting that the band gap of PbS nanocrystals can be well adjusted by adjusting the reaction conditions. Control, its corresponding absorption edge just falls in the near-infrared region, which provides very convenient conditions for the utilization of infrared spectrum, so the research has been highly valued; but these nanocrystalline batteries also have serious efficiency decline problems, how to solve this problem The problem will be the focus of future research

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  • CdTe nanometer crystalline heterojunction solar battery and manufacturing method thereof
  • CdTe nanometer crystalline heterojunction solar battery and manufacturing method thereof
  • CdTe nanometer crystalline heterojunction solar battery and manufacturing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] Example 1: Preparation of inverted structure CdTe nanocrystal / cadmium sulfide heterojunction solar cell

[0051] (1) Cleaning of ITO conductive glass substrate: (the specification is 15mm×15mm, the thickness of ITO is about 130nm, and its square resistance is about 20 ohms / square, purchased from Zhuhai Kaiwei Electronic Components Co., Ltd.) The sheet was ultrasonically treated in acetone, semiconductor special detergent, deionized water, and isopropanol for 10 minutes to clean the surface of the ITO substrate, and then the ITO sheet was placed in a constant temperature oven at 80°C for 4 hours to dry.

[0052] (2) Configure the ZnO precursor solution: dissolve zinc acetate dihydrate (0.5mol / L) and ethanolamine (0.5mol / L) in methoxyethanol (the above are analytically pure drugs, from Guangzhou Qianhui Chemical Glass Co., Ltd. Purchased by the company), reflux at 60°C for 2h, and filter through a 0.45μm filter to obtain a ZnO precursor solution.

[0053] (3) Preparation...

Embodiment 2

[0062] Example 2: Performance measurement of CdTe nanocrystalline heterojunction solar cells

[0063] Solar cells are energy conversion devices that convert solar energy into electrical energy, so the measurement of any performance parameters of solar cell devices must ultimately use sunlight as the test standard. The irradiance of AM1.5G measurement standard commonly used in laboratories is 1000W / m 2 . When using solar simulated light to test the performance of nanocrystalline solar cells, it is first necessary to use standard cells to determine whether the light source is combined with the irradiance of AM1.5G. Standard silicon solar cells are calibrated: under AM1.5G standard spectrum, that is, 1000W / m 2 Under the light irradiation of the irradiance, the obtained short-circuit current is 125mA. Once the irradiation intensity is determined, the device can be tested. The solar cell performance test is carried out with the sun simulated light, the energy conversion efficie...

Embodiment 3

[0074] Example 3: Effect of Nanocrystalline Dispersion Solvent on Device Performance

[0075] According to the preparation method of Example 1, prepare ITO / ZnO / CdS / CdTe / MoO 3 / Ag and ITO / CdS / CdTe / MoO 3 / Ag inverted structure device, in which the thickness of the CdTe active layer is 500nm, the solvents used are n-propanol, pyridine and pyridine / n-propanol mixed solvent (volume ratio is 1:1), the concentration of nanocrystals is uniform It was 40mg / mL, and other conditions were unchanged, and its performance was measured, and the results are shown in Table 3.

[0076] Table 3 Effect of nanocrystal dispersion solvent on device performance

[0077]

[0078] It can be seen from Table 3 that the performance of the device using n-propanol solvent is the worst, and the energy conversion efficiency is only 1.77%, while the performance of the device using pyridine reagent reaches 3%. When using the mixed solvent n-propanol / pyridine used in this case ( The volume ratio is 1:1), th...

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Abstract

The invention belongs to the field of photoelectric devices, and discloses a CdTe nanometer crystalline heterojunction solar battery and a manufacturing method of the CdTe nanometer crystalline heterojunction solar battery. The CdTe nanometer crystalline heterojunction solar battery is formed by a glass substrate, a negative electrode, a negative electrode interface layer, a window layer, an optical activity layer and a positive electrode in a sequentially stacked mode. The negative electrode interface layer is a ZnO film or a TiO2 film. The optical activity layer is composed of one or more CdTe nanometer crystalline layers. The negative electrode is at least one of an indium tin oxide conductive film, doped stannic oxide, a metal film and a metal oxide film. The window layer is a CdS film. The positive electrode is made of Ag or Al. A MoO3 oxidation film is arranged between the optical activity layer and the positive electrode. According to the CdTe nanometer crystalline heterojunction solar battery, the solution machining technology is used, the ultra-thin solar battery is achieved, the performance is excellent, and the energy conversion efficiency is as high as 3.73%.

Description

technical field [0001] The invention belongs to the field of photoelectric devices, in particular to a CdTe nanocrystalline heterojunction solar cell and a preparation method thereof. Background technique [0002] Environmental degradation and energy shortage have become the main problems facing mankind in the 21st century, and the search for clean energy and renewable energy has become a common concern of all countries in the world. Solar energy is an inexhaustible and inexhaustible renewable energy source for human beings. It will not change the thermal energy balance of the earth, and it is also a clean energy source that does not produce any environmental pollution. At present, solar cells with relatively mature technology in the market are mainly inorganic solar cells based on crystalline silicon, cadmium telluride, gallium arsenide, indium phosphide, and polycrystalline compound semiconductors. Among them, crystalline silicon solar cells have been applied on a certain ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L31/073H01L31/0352H01L31/0224H01L31/18
CPCY02E10/543Y02P70/50
Inventor 覃东欢张云鹏张毅杰刘凯怡王嘉霖
Owner SOUTH CHINA UNIV OF TECH
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