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24621-21-4
NbN
410700PD
99.0 %-99.9 %
- 325 mesh (15 mic aps)
246-362-5
Characteristic
Niobium nitride is a compound of niobium and nitrogen (nitride) with the chemical formula NbN. At low temperatures (about 16 K) NbN, niobium nitride becomes a superconductor, and is used in detectors for infrared light.
Chemical formula:NbN
Molar mass:106.91 g/mol
Appearance:gray solid
Density:8.470 g/cm3
Melting point:2,573 °C (4,663 °F; 2,846 K)
Solubility in water:reacts to form ammonia
Crystal structure:cubic, cF8
Application
Niobium nitride's main use is as a superconductor. Detectors based on it can detect a single photon in the 1-10 micrometer section of the infrared spectrum, which is important for astronomy and telecommunications. It can detect changes up to 25 gigahertz.
Niobium nitride is also used in absorbing anti-reflective coatings.
In 2015, it was reported that Panasonic Corp. has developed a photocatalyst based on niobium nitride that can absorb 57% of sunlight to support the decomposition of water to produce hydrogen gas as fuel for electrochemical fuel cells.
Characteristic
Niobium nitride is a compound of niobium and nitrogen (nitride) with the chemical formula NbN. At low temperatures (about 16 K) NbN, niobium nitride becomes a superconductor, and is used in detectors for infrared light.
Chemical formula:NbN
Molar mass:106.91 g/mol
Appearance:gray solid
Density:8.470 g/cm3
Melting point:2,573 °C (4,663 °F; 2,846 K)
Solubility in water:reacts to form ammonia
Crystal structure:cubic, cF8
Application
Niobium nitride's main use is as a superconductor. Detectors based on it can detect a single photon in the 1-10 micrometer section of the infrared spectrum, which is important for astronomy and telecommunications. It can detect changes up to 25 gigahertz.
Niobium nitride is also used in absorbing anti-reflective coatings.
In 2015, it was reported that Panasonic Corp. has developed a photocatalyst based on niobium nitride that can absorb 57% of sunlight to support the decomposition of water to produce hydrogen gas as fuel for electrochemical fuel cells.
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