Effects of surface modification of MoS2:TiO2:Pt counter
The MoS2:TiO2:Pt counter electrode (CE) treated using argon plasma provides possibilities to improve photovoltaic performance of dye-sensitized solar cells (DSSCs). The experimental results revealed that the argon plasma-treated MoS2:TiO2:Pt composite influences on the power conversion efficiency by enhancing electrocatalytic activity that serves
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Plasma-treatment applications for fabricating third-generation
Low-temperature atmospheric-pressure plasma can provide sufficient reactive and energetic species to rapidly process thermally sensitive surfaces and interfaces...
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Plasma-treatment applications for fabricating third-generation
Low-temperature atmospheric-pressure plasma can provide sufficient reactive and energetic species to rapidly process thermally sensitive surfaces and interfaces in thin-film solar cells and enable alternative manufacturing methods to time-consuming high-temperature
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Plasma Treatment for Thin Film Solar Cell Manufacturing
As photovoltaic cell manufacturing processes evolve, and with the added pressures of increasing hazardous chemical waste disposal costs, there has been interest in atmospheric plasma treatment systems as efficient dry etching,
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Effect of different surface treatments of sputtered NiOX on the
of different surface treatments on the photovoltaic device parameters is clearly evident from the box plot [Figs. 1(c)– 1(f)] and is more advantageously pronounced for plasma treated sp-NiO x based perovskite solar cells. The best device, produced from plasma treated sp-NiO x, delivered a high PCE of ∼15%, which is 29% higher than as-deposited sp-NiO x case.
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25-cm2 glass-like transparent crystalline silicon
A simple but effective chemical surface treatment method for removing surface damage from c-Si microholes is proposed by Park et al. A 25-cm2 large neutral-colored transparent c-Si solar cell with chemical surface
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Effect of NiO x thin layer fabricated by oxygen-plasma treatment
Request PDF | Effect of NiO x thin layer fabricated by oxygen-plasma treatment on polymer photovoltaic cell | The performance of polymer photovoltaic (PV) cells based on poly(3-hexylthiophene-2,5
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Plasma-treatment applications for fabricating third-generation
Low-temperature atmospheric-pressure plasma can provide sufficient reactive and energetic species to rapidly process thermally sensitive surfaces and interfaces in thin-film
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Photovoltaic solar cells-the key role of plasma surface treatment
In the photovoltaic cell process, plasma surface treatment can be used for glass substrate surface activation, anode surface modification, coating protective film pretreatment and so on, which has significant advantages in improving the surface hydrophili
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Sustainable Treatment of Spent Photovoltaic Solar
In the past few decades, the solar energy market has increased significantly, with an increasing number of photovoltaic (PV) modules being deployed around the world each year. Some believe that these PV modules have a lifespan of
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(PDF) Surface texturing for silicon solar cell application
Plasma treatment using pure NF 3 under low pressure conditions leads to high etch rates (1.2–1.4 µm/min) enabling fast surface texturing. 6 min plasma treatment on wafers with saw damage...
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(PDF) Atmospheric-pressure plasma surface activation
Results presented in this paper show that use of an atmospheric-pressure plasma is highly effective in activating the surface of substrates commonly used in thin film photovoltaic (PV) device...
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Plasma-treatment applications for fabricating third-generation solar cells
Low-temperature atmospheric-pressure plasma can provide sufficient reactive and energetic species to rapidly process thermally sensitive surfaces and interfaces in thin-film solar cells and enable alternative manufacturing methods to
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Plasma monitoring and PECVD process control in thin film silicon
The PECVD recipe starts with a 30 s Ar plasma treatment to clean the ZnO:Al surface e.g. from H 2 O molecules. Then follows the deposition of a very thin p -type μ c-Si:H seed layer and then
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Plasma-treatment applications for fabricating third-generation solar cells
Low-temperature atmospheric-pressure plasma can provide sufficient reactive and energetic species to rapidly process thermally sensitive surfaces and interfaces in thin-film solar cells and enable alternative manufacturing methods to time-consuming high-temperature processing. This chapter discusses recent advancements in the low
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The effect of rapid atmospheric plasma treatment of FTO
The results indicate that rapid plasma treatment of FTO substrates can be as effective as standard cleaning, which may employ various toxic organic solvents and time-consuming ultrasonic baths. The highest efficiency (6.3%) was achieved with C–PSCs for which the substrates had been cleaned by combined standard cleaning and 10-s
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Plasma surface texturization for multicrystalline silicon solar cells
Textured front surfaces improve the efficiencies of solar cells due to reduced reflection and light trapping. Most methods of wet chemical surface texturing depend on crystal orientation. The
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Plasma surface texturization for multicrystalline silicon solar cells
Textured front surfaces improve the efficiencies of solar cells due to reduced reflection and light trapping. Most methods of wet chemical surface texturing depend on crystal orientation. The authors have therefore developed a SF/sub 6//O/sub 2/ reactive ion etch process for the mask-less texturing of silicon independently from grain orientation.
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(PDF) Atmospheric-pressure plasma surface activation for
Results presented in this paper show that use of an atmospheric-pressure plasma is highly effective in activating the surface of substrates commonly used in thin film photovoltaic (PV) device...
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(PDF) Surface texturing for silicon solar cell application using
Plasma treatment using pure NF 3 under low pressure conditions leads to high etch rates (1.2–1.4 µm/min) enabling fast surface texturing. 6 min plasma treatment on wafers with saw damage...
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Application of a Plasma Technique for Solar Cell Fabrication
Using a hydrogen plasma a passivation of grain boundaries in polycrystalline silicon could be demonstrated. This treatment resulted in a relative efficiency improvement up to 15% and a better uniformity in the quality of solar cell fabrication.
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A review of self-cleaning coatings for solar photovoltaic systems
Photovoltaic power generation is developing rapidly with the approval of The Paris Agreement in 2015. However, there are many dust deposition problems that occur in desert and plateau areas. Traditional cleaning methods such as manual cleaning and mechanical cleaning are unstable and produce a large economic burden. Therefore, self-cleaning
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Plasma Treatment for Thin Film Solar Cell Manufacturing
As photovoltaic cell manufacturing processes evolve, and with the added pressures of increasing hazardous chemical waste disposal costs, there has been interest in atmospheric plasma treatment systems as efficient dry etching, surface cleaning and
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Effect of different surface treatments of sputtered NiO X on the
Effect of different surface treatments of sputtered NiO X on the photovoltaic parameters of perovskite solar cells: A correlation study . February 2020; Applied Physics Express 13(2):025505; DOI
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The effect of rapid atmospheric plasma treatment of FTO
The results indicate that rapid plasma treatment of FTO substrates can be as effective as standard cleaning, which may employ various toxic organic solvents and time
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(PDF) Atmospheric-pressure plasma surface
Low-temperature plasma treatment of glass surfaces reduced the intensity of the 655 nm emission peak of Qdot655 on glass surfaces, but did not significantly change the intensity of the 580 nm
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Application of a Plasma Technique for Solar Cell Fabrication
Using a hydrogen plasma a passivation of grain boundaries in polycrystalline silicon could be demonstrated. This treatment resulted in a relative efficiency improvement up
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Plasma-treatment applications for fabricating third-generation solar cells
Low-temperature atmospheric-pressure plasma can provide sufficient reactive and energetic species to rapidly process thermally sensitive surfaces and interfaces...
Get a quote6 FAQs about [Photovoltaic cell plasma surface treatment]
Can plasma treatment be used in solar cell manufacturing?
To integrate plasma treatment in solar cell manufacturing, it is increasingly important to elucidate the fundamental interactions between plasma and nanomaterials. However, atmospheric-pressure plasma treatment produces hundreds of possible reactions, which multiplies when applied to nanomaterials.
Can low-temperature atmospheric-pressure plasma be used in thin-film solar cells?
Low-temperature atmospheric-pressure plasma can provide sufficient reactive and energetic species to rapidly process thermally sensitive surfaces and interfaces in thin-film solar cells and enable alternative manufacturing methods to time-consuming high-temperature processing.
Can low-temperature plasma be used to manufacture third-generation thin-film solar cells?
However, to commercialize low-temperature plasma for application to manufacturing third-generation thin-film solar cells, robust and inexpensive atmospheric-pressure plasma processing must be developed to integrate atmospheric-pressure plasma processing in large-area S2S and R2R manufacturing.
Does plasma treatment improve photocurrent?
Rapid plasma treatment for approximately 1 min rapidly oxidized CH 3 groups and cross-linked silicon atoms through oxygen atoms in the polysiloxane matrix to form almost fully inorganic amorphous SiO 2 while still incorporating TiO 2 nanoparticles in a mesoporous structure. The plasma-treated coating exhibited considerably improved photocurrent.
Can low-temperature plasma treatment be used to etch and passivate PSC surfaces?
Therefore, low-temperature plasma treatments can be used to effectively process MAPI perovskites to etch and passivate PSC surfaces under soft/mild plasma conditions. Kim et al. investigated the morphological effects of atmospheric-pressure hydrogen plasma on MAPI perovskite surfaces treated for 2–300 s , .
What is atmospheric plasma surface pretreatment?
One such revolutionary technology is atmospheric plasma surface pretreatment. Plasma Treatment offers unique economies for in-line production. Traditionally only vacuum plasma surface modification technology has been used in photovoltaic cell manufacturing.
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