Catalog Number
ACM18282105-1
Product Name
Tin Oxide Nanowires
Category
Lithium-Ion Batteries
Synonyms
Stannic oxide, Tin(IV) oxide, Oxo(oxostannanylidene)tin, oxo-?2-stannane, stannane, oxo-, Diketotin, Tin(II) oxide, tin mono-oxide, Dioxotin, Stanic anhydride, Tin peroxide
IUPAC Name
Oxo(oxostannanylidene)tin
InChI Key
QHGNHLZPVBIIPX-UHFFFAOYSA-N
Boiling Point
1800-1900 °C (sublimes)
Melting Point
1630 °C (2966 °F)
Purity
99%, 99.9%, 99.99%, 99.999%
Application
Tin Oxide Nanowires are engineered with the aim of harnessing the unique properties of tin dioxide, a compound composed of tin(IV) and oxygen. This material holds significant promise in various advanced technological applications. The nanowires leverage the inherent capabilities of tin dioxide, which is traditionally presented as a white or off-white powder. In its original form, tin dioxide is known for its application in ceramic glazes, polishing agents, and as a foundational element in producing other tin compounds. By transforming it into nanowire structures, the potential uses expand significantly. These nanowires are at the forefront of innovation in semiconductors, photovoltaic materials, and solar cells, providing enhanced performance in energy conversion and storage devices like lithium-ion batteries. Additionally, they play a crucial role in environmental technology as photocatalysts and in developing advanced gas sensors for solid-state detection, offering improved sensitivity and reliability.
Monoisotopic Mass
135.897114 Da