Interesting facts
Exploring Dioxotin
Dioxotin is a fascinating compound that captures the attention of chemists due to its unique structure and potential applications. Here are some intriguing facts about dioxotin:
- Chemical Structure: Dioxotin features a distinctive arrangement of atoms that classifies it as an organosulfur compound. Its cyclic structure allows for interesting reactivity patterns that are still being researched.
- Natural Occurrence: While dioxotin can be synthesized in the lab, some studies suggest that similar compounds may occur naturally in certain biological systems, hinting at its potential role in nature.
- Environmental Impact: As scientists are increasingly aware of the environmental challenges we face, dioxotin has been examined for its hazardous effects and degradation pathways, emphasizing the need for cautious handling and disposal methods.
- Applications: Preliminary research investigates dioxotin's applications in pharmaceutical chemistry, particularly in drug development and synthesis. This compound shows promise as a potential precursor for various medicinal compounds.
- Research Potential: The study of dioxotin continues to evolve. Its intriguing properties lead to ongoing research that may uncover new insights into its chemical behavior and applications in materials science.
In conclusion, dioxotin is not just another chemical compound; it holds the key to understanding new chemical phenomena and potential applications that could impact various industries. As researchers continue to explore its properties, the story of dioxotin is bound to unfold in exciting ways.
Synonyms
Cassiterite (SnO2)
dioxotin
Cassiterite
1317-45-9
MFCD00011244
18232-10-5
Stannic oxide (SnO2)
tin-oxide
HSDB 5064
EINECS 242-159-0
Tin Oxide Nanowires
Tin Oxide Nanopowder
SnO2
Stannic Oxide Nanopowder
UNII-KM7N50LOS6
SCHEMBL64143
Tin Oxide Nanowires Properties
DTXSID201316016
Tin(IV) oxide (99.998%-Sn)
FT33030
Tin oxide nanopowder (50-70 nm)
SY061104
Ruthenium Oxide (RuO2) Sputtering Targets
NS00074409
T4006
Tin(IV) oxide, 99.996% (metals basis)
EC 242-159-0
Tin oxide powder, (stannic), white 325 mesh
Tin(IV) oxide, >=99.99% trace metals basis
Q129163
Tin(IV) oxide, -325 mesh, 99.9% trace metals basis
Tin(IV) oxide, nanopowder, <=100 nm avg. part. size
Solubility of Dioxotin
Dioxotin, a lesser-known compound, exhibits specific solubility characteristics that are important for various applications. Generally, the solubility of dioxotin can be influenced by several factors:
In summary, the solubility of dioxotin is influenced by its chemical structure and the nature of the solvents used. As noted in solubility studies, "the interaction between the solute and the solvent determines the extent to which a compound can dissolve." Therefore, to fully understand and utilize dioxotin in various contexts, it is essential to consider these solubility parameters carefully.