Bismuth Iodide Powder
Bismuth Iodide Powder
Bismuth Iodide Powder | |
Product No | NRE-11030 |
CAS | 7787-64-6 |
Purity | 99.9% |
Molecular Formula | BiI3 |
Molecular Weight | 589.69 g/mol |
Color | greenish-black |
Density | 5.78 g/cm3 |
APS | < 40 µm (can be customized) |
Melting Point | 408.6° C |
Boiling Point | 542° C |
Bismuth Iodide Powder
Bismuth iodide powder has several potential applications across various fields due to its unique properties. Some of its notable applications include:
Photocatalysts: Bismuth iodide powder has been studied for its potential application as a photocatalyst, especially in the realm of solar energy conversion. Its ability to absorb light and facilitate chemical reactions makes it a promising candidate for use in solar cells and other energy conversion devices.
Semiconductors: Bismuth iodide is a semiconductor material that has garnered interest in the field of electronics. It can be used in the fabrication of electronic devices, including transistors and sensors, due to its semiconducting properties.
Optoelectronics: Due to its ability to convert light into electricity and vice versa, bismuth iodide finds applications in the field of optoelectronics. It can be used in the development of light-emitting diodes (LEDs), photodetectors, and other optoelectronic devices.
Medical Imaging: Bismuth iodide is used in some medical imaging applications, particularly in X-ray imaging systems. Its high atomic number and excellent X-ray absorption properties make it a suitable material for enhancing contrast in medical imaging procedures.
Radiation Shielding: Its high atomic number also makes bismuth iodide an effective material for radiation shielding. It is used in various applications where protection from radiation is crucial, such as in nuclear power plants, medical facilities, and aerospace technology.
Chemical Reagents: Bismuth iodide can be employed as a chemical reagent in various chemical processes, including organic synthesis and catalysis. Its unique properties can enable specific reactions and facilitate the synthesis of various compounds.