Perovskite Solar Cell Material "Spiro-MeOTAD"
Perovskite Solar Cell Material "Spiro-MeOTAD"
Realized the Goals of "Cost Efficiency" and "Consistent Supply" for Perovskite Solar Cell Materials!
The hole transport material "Spiro-MeOTAD" for perovskite solar cells, developed by HighChem, is positioned to make a significant impact by offering a cost-effective solution for solar cell manufacturing. Moreover, it is designed to ensure a reliable and uninterrupted supply of raw materials, capable of meeting the demands even as perovskite solar cell production scales up. Additionally, it exhibits compatibility with high-purity materials (purity exceeding 99.5%) due to the company's proprietary technology.
Presently, HighChem has established a production infrastructure for small-scale output at its Tokyo Research Institute and has officially commenced product availability. Furthermore, a production facility in collaboration with factories is currently in the process of development, thereby enabling mass production capabilities all over the world, effectively catering to the needs and preferences of customers.
Features and Advantages of Spiro-MeOTAD by HighChem
High purity product with the absence of contaminants will be provided |
High conversion efficiency can significantly enhance the performance of energy system
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Mass production can meet all kinds of consumer demands with greater speed
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Offering products at a low price with stable output |
What’s about Perovskite Solar Cells
Perovskite solar cells represent the cutting edge in next-generation solar technology, boasting an impressive level of conversion efficiency, nearly on par with the well-established silicon solar cells that currently dominate the market. Their distinct advantage lies in their ability to maintain remarkable conversion efficiency even in indoor low-light conditions, and enabling power generation on rainy or cloudy days, a feat that conventional solar cells struggle to achieve. Furthermore, they can make at lower temperatures, facilitating their application on flexible film substrates and paving the way for the development of flexible, foldable solar panels. Perovskite solar cells hold immense potential for deployment as energy sources on building walls, EV rooftops, and as power providers for IoT devices like personal computers and smartphones.
Features and Advantages of Solar Cells
Comparation | Perovskite Type
| Si Type
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Materials | ABX3
| Polycrystalline silicon
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Environment | Low temperature, ATP
| 900℃, Full vacuum
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Technology | Simple | Complicated |
Substrate | Glass, Film | Polycrystalline silicon
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Wavelength | Short, absorb high energy
| Long, absorb low energy
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High conversion efficiency even in low illumination
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A shorter energy payback time and less energy use
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Thin-Film devices with flexibility and lightweight
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