Interesting facts
Interesting Facts about (Cyclohexyldisulfanyl)cyclohexane
(Cyclohexyldisulfanyl)cyclohexane is a fascinating compound that showcases the complex interplay of sulfur and carbon chemistry. Its unique structure provides several interesting aspects worth exploring:
- Disulfide Bonds: This compound features disulfanyl groups that can contribute significantly to the reactivity and stability of the molecule. Disulfides play a crucial role in various biological systems, particularly in protein structure stability.
- Cycloalkane Framework: The cyclohexane rings offer a stable and versatile platform for further chemical modifications. Cyclohexane derivatives are common in organic chemistry because they serve as fundamental building blocks in the synthesis of more complex molecules.
- Potential Applications: Researchers are intrigued by the potential applications of sulfur-containing compounds. They can be utilized in the development of pharmaceuticals, agrochemicals, and even materials science due to their unique properties.
- Structural Isomerism: The presence of multiple cyclohexane units along with disulfide groups gives rise to various structural isomers, which can lead to different physical and chemical properties. Studying these differences gives chemists insights into molecular behavior.
- Research Interest: Given its structure, (cyclohexyldisulfanyl)cyclohexane is of particular interest in academic research. It serves as a model compound for studying the reactivity of sulfur-sulfur bonds and their interactions with other functional groups.
In summary, (cyclohexyldisulfanyl)cyclohexane is not just a simple compound; it embodies the complexities of organic and inorganic chemistry with its unique features and potential applications. As chemists delve deeper into its characteristics, they may uncover new scientific advancements and innovative uses!
Synonyms
DICYCLOHEXYL DISULFIDE
Cyclohexyl disulfide
Disulfide, dicyclohexyl
(Cyclohexyldisulfanyl)cyclohexane
Dicyclohexyl disulphide
Bis(cyclohexyl)disulfide
Bis(cyclohexyl) disulfide
FEMA No. 3448
Dicyclohexyldisulphide
HSDB 5886
EINECS 219-851-6
UNII-6G1A0K504Q
DTXSID4047628
6G1A0K504Q
Cyclohexyl disulfide (6CI,7CI,8CI)
DTXCID2027628
DICYCLOHEXYL DISULFIDE [FHFI]
DICYCLOHEXYL DISULFIDE [HSDB]
odhaqpxnqdbhsh-uhfffaoysa-n
2550-40-5
1,2-Dicyclohexyldisulfane
CHEMBL3188833
Cyclohexyldisulfide
C12H22S2
CySSCy
dicyclohexyldisulfide
MFCD00013759
SCHEMBL299921
(cyclohexyldisulanyl)cyclohexane
FEMA 3448
CHEBI:166589
(Cyclohexyldisulfanyl)cyclohexane #
Tox21_300619
BDBM50555856
Dicyclohexyl disulfide, >=95%, FG
AKOS015898618
FD44047
NCGC00248110-01
NCGC00254435-01
BS-16260
PD168656
CAS-2550-40-5
DB-000273
CS-0155315
D1617
NS00021946
D81849
Q27264842
Solubility of (cyclohexyldisulfanyl)cyclohexane
The solubility of (cyclohexyldisulfanyl)cyclohexane in various solvents is a fascinating topic due to its unique structural characteristics. Primarily, the solubility characteristics can be summarized as follows:
As a general rule, compounds like (cyclohexyldisulfanyl)cyclohexane, which combine hydrocarbon frameworks with polar functional groups, tend to favor solubility in solvents that can stabilize both hydrophobic and polar interactions. This can contribute to varied applications in chemical synthesis and materials science, making the study of solubility not just intriguing, but essential for practical usage.