Interesting facts
Interesting Facts about Dichloro(dimethyl)stannane
Dichloro(dimethyl)stannane is a unique organotin compound that has garnered attention within various fields of chemistry. This compound is particularly notable for its diverse applications and distinctive properties:
- Organotin Chemistry: As an organotin compound, dichloro(dimethyl)stannane plays a pivotal role in the study of organometallic chemistry. Organotins are known for their utility in catalysis and as intermediates in organic synthesis.
- Reagent in Synthesis: This compound serves as a valuable reagent in the preparation of various organotin derivatives, which are essential for creating complex organic molecules.
- Environmental Impact: Organotin compounds often raise environmental concerns due to their toxicity. Understanding their behavior and decomposition is crucial for environmental chemistry.
- Applications in Material Science: Dichloro(dimethyl)stannane is used in the production of polymers and coatings, enhancing properties such as stability and resistance to degradation.
- Role in Pharmaceuticals: There is ongoing research into the potential applications of tin-based compounds in pharmaceuticals, with dichloro(dimethyl)stannane being a candidate for such studies.
Furthermore, the structure of this compound allows it to engage in various chemical reactions, making it a versatile building block in organic synthesis. Researchers often emphasize the importance of these compounds in advancing green chemistry, aiming to minimize toxic substances in chemical processes.
In summary, dichloro(dimethyl)stannane stands as a fascinating subject for chemists, bridging gaps between organic synthesis, environmental sustainability, and innovative material design.
Synonyms
Dimethyltin dichloride
753-73-1
Dichlorodimethylstannane
Dichlorodimethyltin
Dimethyldichlorotin
STANNANE, DICHLORODIMETHYL-
Dimethyltindichloride
dichloro(dimethyl)stannane
Dimethyldichlorostannane
Tin, dimethyl-, dichloride
Cotin 210
Dichlorid dimethylcinicity
Dimethylzinndichloride
CCRIS 6320
Dimethylzinndichloride [German]
Dichlorid dimethylcinicity [Czech]
EINECS 212-039-2
NSC 55159
7K42FNK7A0
DTXSID5027304
NSC-55159
DTXCID907304
EC 212-039-2
DMTCI
Stannane, dichlorodimethyl
Tin, dimethyl, dichloride
212-039-2
Tin, dichlorodimethyl-
dichloro-dimethyl-stannane
MFCD00000517
(CH3)2SnCl2
CAS-753-73-1
Dichlorodimethyltin; Dimethyldichlorostannane; Dimethyldichlorotin; Dimethylstannyl dichloride; Dimethyltin dichloride
UNII-7K42FNK7A0
dimethyltin(IV) dichloride
dimethyltin(2+);dichloride
SCHEMBL63275
Dimethyltin dichloride, 97%
Dimethyltin Dichloride 1000 microg/mL in Methanol
WLN: G-SN-G1&1
PKKGKUDPKRTKLJ-UHFFFAOYSA-
NSC55159
Tox21_201249
Tox21_303137
AKOS015899976
FD60626
NCGC00164123-01
NCGC00257125-01
NCGC00258801-01
DA-34792
DS-010767
NS00079908
H11302
Q20054517
Dimethyltin dichloride, PESTANAL(R), analytical standard
Solubility of Dichloro(dimethyl)stannane
Dichloro(dimethyl)stannane, with the chemical formula Me2SnCl2, exhibits interesting solubility characteristics that are important for its applications in various chemical processes. Its solubility profile can be summarized as follows:
In general, solubility in organic compounds leads to its applications in various synthesis processes, particularly where tunable reactivity is desired. As stated, "the solubility is a key factor in the performance and efficacy of chemical compounds in reactions." Understanding these solubility characteristics is crucial for effective utilization in both laboratory and industrial scenarios.