new material
Stannous sulfide (SnS) is a high-purity inorganic compound known for its excellent semiconductor properties, thermal stability, and chemical resistance. It is widely used in photovoltaic applications, electronic components, infrared detectors, and advanced coatings. Due to its superior light absorption and electrical characteristics, stannous sulfide plays a crucial role in energy conversion, precision engineering, and specialized industrial applications.
Product Description
Stannous Sulfide (SnS) is an inorganic compound that appears as gray, dark brown, or black solids, with an orthorhombic crystal structure. It is commonly found in rare stannite ores. The material is chemically stable, insoluble in water and dilute acids, but soluble in concentrated hydrochloric acid. Due to its specific optical properties, particularly its good match with visible light in solar radiation, it has gained attention as a potential material for solar cells.
Product Features
- High purity (3N), ensuring excellent performance in optoelectronic applications.
- Exhibits optical bandgap properties suitable for light absorption layers, making it ideal for use in solar cells.
- Custom sizes and specifications are available to meet individual needs.
- As a catalyst and optical material, it shows promising applications in various fields.
Applications
- Solar Cell Materials: Stannous Sulfide has excellent compatibility with visible light in solar radiation, making it an ideal material for light absorption layers in solar cells, and a promising photovoltaic material.
- Catalyst: Used as a catalyst in the polymerization of hydrocarbons and various chemical processes.
- Reagents: In scientific research, Stannous Sulfide is also utilized as an analytical reagent.
| Element | Measured Value | Standard Value | Unit | Element | Measured Value | Standard Value | Unit | Element | Measured Value | Standard Value | Unit |
| Li | Zn | <10 | ppm | Pb | <10 | ppm | |||||
| B | Ga | Bi | <10 | ppm | |||||||
| F | Ge | Y | |||||||||
| Na | As | <10 | ppm | Th | |||||||
| Mg | <10 | ppm | Se | Er | |||||||
| Al | 24 | ppm | Zr | Ru | |||||||
| Si | Nb | Rh | |||||||||
| P | Mo | Os | |||||||||
| Cl | Pd | Cd | <5 | ppm | |||||||
| K | Ag | In | <5 | ppm | |||||||
| Ca | <10 | ppm | Sn | Matrix | wt% | ||||||
| Ti | Sb | <5 | ppm | ||||||||
| V | Ba | ||||||||||
| Cr | <10 | ppm | Hf | ||||||||
| Mn | Ta | C | |||||||||
| Fe | 37 | ppm | W | S | Matrix | wt% | |||||
| Co | 11 | ppm | Pt | O | |||||||
| Ni | Au | <5 | ppm | N | |||||||
| Cu | 28 | ppm | Hg | H |
