Thallium nitrate is white crystalline particle, which is a thallium salt. It decompose at 260℃, which is soluble in water and acetone, but not soluble in ethyl alcohol.Thallium metal is the raw material
Thallous nitrate is an inorganic compound with significant utility in scientific research, material synthesis, and specialized industrial applications. Known for its solubility in water and strong oxidizing properties, thallous nitrate serves as a valuable reagent and precursor in various advanced fields.
Thallium Nitrate
| CAS No.:10102-45-1 | EINECS No.:237-325-4 | Molecular Formula:TlNO3 | Molecular Weight:266.38 |
| Melting Point:206℃ | Boiling Point:433℃ | Density:5.55 | UN 2727 6.1/PG 2 |
Applications
Thallium(I) nitrate is for doing quantitative analysis of coexisting chlorine, bromide and iodine. It is also raw material for optical (waveguide) fibre material.
Thallous nitrate is a kind of analytical reagent, which is also raw material for thallium test paper and maritime marker.
In chemical research, thallous nitrate is widely used to study thallium’s unique chemical behavior. Its ability to act as a source of thallium ions makes it a critical reagent in the synthesis of other thallium compounds, such as oxides, sulfates, and halides. These derivatives are essential in applications ranging from semiconductors and optics to radiation detection. Thallous nitrate’s role in exploring reaction mechanisms and material properties aids in advancing inorganic chemistry and material science.
In material synthesis, thallous nitrate is utilized as a precursor in creating advanced materials with optical and electronic properties. Thallium-based compounds derived from thallous nitrate are integral to infrared optics, where they are used to manufacture lenses, windows, and other components for imaging systems in defense, aerospace, and medical applications.
Additionally, thallous nitrate has niche uses in the preparation of catalysts and specialized chemical processes. Its reactivity and compatibility with various substrates allow for innovations in material development, including the creation of high-performance coatings and films.
While thallium nitrate is highly valuable, its handling and use require strict safety measures due to thallium’s toxicity. It is primarily employed in controlled research and industrial environments to ensure compliance with safety and environmental regulations.