Interesting facts
Interesting Facts about Dimethoxy-Methylsulfanyl-Thioxo-Lambda5-Phosphane
Dimethoxy-methylsulfanyl-thioxo-lambda5-phosphane is a fascinating compound that embodies the complexities of phosphorus chemistry. This compound showcases the unique properties and reactivity associated with phosphorus in its various oxidation states. Here are some intriguing aspects of this compound:
- Structure and Functionality: The compound possesses a thioxo group, which is crucial in its functional role. Thioxo groups often increase reactivity and can act as sulfur donors in various chemical reactions.
- Reactivity: The lambda notation indicates the oxidation state of phosphorus. In this case, it highlights the compound's potential in coordination chemistry and its reactivity towards nucleophiles, making it an excellent candidate for synthetic applications.
- Applications: Phosphorus-containing compounds like dimethoxy-methylsulfanyl-thioxo-lambda5-phosphane have practical uses in agriculture, particularly in the development of new pesticides and fertilizers, thanks to their role in enhancing nutrient availability in soils.
- Environmental Importance: Understanding compounds with phosphorus can lead to improved management practices for reducing nutrient run-off, thus minimizing environmental impacts such as eutrophication in water bodies.
- Research Significance: The study of such compounds is essential for chemists focusing on sulfur-phosphorus interactions, as they reveal valuable insights into the mechanisms of various chemical processes.
- Instability: Compounds containing thioxo groups often exhibit interesting instability patterns, making them subjects of study for chemists exploring reaction kinetics and thermodynamics.
As our understanding of phosphorus chemistry continues to grow, compounds like dimethoxy-methylsulfanyl-thioxo-lambda5-phosphane will undoubtedly play an important role in advancing both theoretical and applied chemistry.
Synonyms
2953-29-9
O,O,S-Trimethyl dithiophosphate
PHOSPHORODITHIOIC ACID, O,O,S-TRIMETHYL ESTER
BRN 1702943
O,O,S-Trimethylphosphorodithioate
O,O,S-Trimethylphosphorodithionate
UNII-8OW97X1U88
AI3-27482
8OW97X1U88
DTXSID2042226
4-01-00-01286 (Beilstein Handbook Reference)
TRIMETHYL PHOSPHORODITHIATE, O,O,S-
METHYL PHOSPHORODITHIOATE ((MEO)2(MES)PS)
OOSMeS
OOS-MeP(S)
DTXCID0022226
608-373-7
ildhfygnydicfb-uhfffaoysa-n
O,O,S- Trimethyl dithiophosphate
Dimethoxy-methylsulfanyl-sulfanylidene-lambda5-phosphane
O,O,S-Trimethyl phosphorodithioate
O,O-dimethyl (methylsulfanyl)phosphonothioate
O,O,S-TRIMETHYLDITHIOPHOSPHATE
SCHEMBL259964
CAA95329
AKOS006277646
dithiophosphoric acid O,O',S-trimethyl ester
NS00019606
EN300-108463
O,O-DIMETHYL METHYLSULFANYLPHOSPHONOTHIOATE
Q27270828
Solubility of Dimethoxy-methylsulfanyl-thioxo-lambda5-phosphane
The solubility of dimethoxy-methylsulfanyl-thioxo-lambda5-phosphane is quite intriguing due to the complex interactions between its unique functional groups. Understanding its solubility can be essential for various applications in chemical synthesis and reactions. Here are some key aspects to consider:
In summary, the solubility of dimethoxy-methylsulfanyl-thioxo-lambda5-phosphane is influenced by a range of factors including its molecular structure, polarity, and potential interactions with solvents. As a result, experimenting with various solvents can be a fruitful endeavor for a deeper understanding of its solubility behavior and practical applications. Remember, "the solution lies in the solvent!"