Zinctrifluoromethanesulfonate CAS: 54010-75-2
Catalog Number | XD95212 |
Product Name | Zinctrifluoromethanesulfonate |
CAS | 54010-75-2 |
Molecular Formula | C2F6O6S2Zn |
Molecular Weight | 363.53 |
Storage Details | Ambient |
Product Specification
Appearance | White powder |
Assay | 99% min |
Zinctrifluoromethanesulfonate, also known as zinc triflate, is a chemical compound with various applications in different industries. Its unique properties and reactivity make it valuable in several areas.
In the field of organic synthesis, zinctrifluoromethanesulfonate is used as a Lewis acid catalyst. It can activate various functional groups, such as alkenes, alkynes, and carbonyl compounds, to undergo a wide range of reactions, including Diels-Alder reactions, Friedel-Crafts reactions, and rearrangement reactions. This compound's catalytic activity allows for the efficient and selective formation of complex organic molecules.
Furthermore, zinctrifluoromethanesulfonate finds applications in the field of polymer chemistry as a polymerization initiator or crosslinking agent. It can initiate the polymerization of certain monomers, such as vinyl ethers and cyclic esters, leading to the formation of well-defined and controlled polymer structures. Additionally, it can crosslink polymer chains, enhancing the mechanical properties and thermal stability of polymers.
In the field of electrochemistry, zinctrifluoromethanesulfonate can be used as an electrolyte additive in batteries and fuel cells. Its high conductivity and stability make it suitable for improving the performance and efficiency of these energy storage devices. This compound can enhance the charge/discharge kinetics, increase the ionic conductivity, and suppress undesired side reactions, leading to improved energy storage and conversion capabilities.
Additionally, zinctrifluoromethanesulfonate has applications in the field of materials science as a precursor for the synthesis of functional materials. Its unique combination of zinc and trifluoromethanesulfonate groups allows it to participate in various chemical reactions, enabling the creation of materials with desired properties, such as enhanced conductivity, catalytic activity, or optical properties.
In conclusion, zinctrifluoromethanesulfonate has diverse applications in organic synthesis, polymer chemistry, electrochemistry, and materials science. Its catalytic activity, polymerization initiation, crosslinking capability, and electrolyte properties make it valuable in these fields. Continued research and development are expanding the potential applications of this compound in various industries.