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Semiconductor solar cell - List of Manufacturers, Suppliers, Companies and Products

Semiconductor solar cell Product List

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Applications of carbon products: semiconductors and solar cells.

Applications of carbon products: semiconductors and solar cells.

Graphite (carbon graphite) is actively used as various components in semiconductor manufacturing equipment!

In the semiconductor field, high-purity processed graphite materials are required, and components for silicon single crystal pulling furnaces (crucibles, heaters) are sensitive to impurities. General artificial graphite itself is a material with no impurities, typically at 99.9% purity (representative value for CIP material is about 800 ppm or less). Our company also manufactures semiconductor-related components, compound semiconductor manufacturing processes, optical fibers, thermal processing susceptors, dummy wafers, and components for thin-film solar cell manufacturing equipment. [Products (excerpt)] ■ High-purity carbon heating elements ■ Crucibles for silicon pulling ■ Semiconductor manufacturing equipment fixtures ■ Carbon sputtering targets ■ Separators for solid polymer fuel cells, etc. *For more details, please refer to the PDF materials or feel free to contact us.

  • Other polymer materials
  • Composite Materials
  • fiber

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Tohoku University Technology: Solar Cell: T12-157

Tohoku University Technology: Solar Cell: T12-157

High-efficiency solar cells made from environmentally friendly nitride semiconductors.

The nitride semiconductor InGaAlN can almost cover the entire solar spectrum, and its constituent elements are also environmentally friendly. Unlike conventional semiconductors, nitride semiconductors do not have lattice-matched substrates, resulting in many defects within the crystal. In solar cells, it is necessary to efficiently extract photo carriers. As a strategy, a device structure that utilizes the spontaneously generated polarization electric field within the crystal has been proposed. To realize this structure, it is essential to have growth technology that controls the polarity of the crystal (the arrangement order of constituent atoms along the thin film crystal growth direction), particularly nitrogen (N) polarity growth technology. Tohoku University has successfully achieved this N-polar growth earlier than anyone else in the world and has fabricated N-polar solar cells. Experimental verification has shown that the extraction efficiency of photo carriers is more than eight times greater compared to Ga-polar solar cells.

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