Interesting facts
Interesting Facts about Zinc Dihexoxy-Sulfido-Thioxo-Lambda5-Phosphane
Zinc dihexoxy-sulfido-thioxo-lambda5-phosphane is a fascinating compound that showcases the versatility of zinc in coordination chemistry. Zinc, known as a transition metal, plays a crucial role in various biochemical processes and industrial applications. Here are some intriguing facts about this compound:
- Coordination Chemistry: This compound exemplifies the concept of coordination chemistry, where zinc acts as a central atom surrounded by ligands, in this case, dihexoxy and thioxo groups. The behavior of such complexes is essential for understanding catalytic processes.
- Phosphane Ligands: Phosphane ligands are significant in organometallic chemistry, impacting properties like reactivity and stability. The thioxo-lambda5 configuration allows for unique electronic properties, making them suitable for specific reactions.
- Applications in Catalysis: Compounds like this one hold potential roles in catalysis, particularly in organic synthesis. The ability to facilitate reactions efficiently is vital in advancing various chemical processes, from research to industrial applications.
- Health Implications: Zinc is an essential trace element in the human body, involved in many enzymatic reactions. Understanding the interactions of zinc in more complex structures, like this compound, helps in designing potential therapeutic agents.
- Research and Development: The study of such compounds is at the forefront of modern research, especially in developing new materials and chemical techniques. This compound could pave the way for breakthroughs in material science and pharmacology.
In conclusion, zinc dihexoxy-sulfido-thioxo-lambda5-phosphane stands out not only for its complex structure but also for the potential it holds in various scientific fields. As we delve deeper into its properties and applications, the compound may reveal opportunities for innovative advancements.
Synonyms
ZINC O,O-DIHEXYL DITHIOPHOSPHATE
Zinc dihexyl dithiophosphate
7282-28-2
Zinc di-n-hexyl phosphorodithioate
Zinc bis(O,O-dihexyl) bis(dithiophosphate)
HSDB 2615
EINECS 230-700-3
I528428C1O
Phosphorodithioic acid, O,O-dihexyl ester, zinc salt
Zinc, bis(O,O-dihexyl phosphorodithioato-.kappa.S,.kappa.S')-, (T-4)-
DTXSID1064613
HEXYL ZINC PHOSPHORODITHIOATE
ZINC DI-N-HEXYL DITHIOPHOSPHATE
ZINC O,O-DIHEXYL DITHIOPHOSPHATE [HSDB]
ZINC, BIS(O,O-DIHEXYL PHOSPHORODITHIOATO-S,S')-, (T-4)-
Zinc, bis(O,O-dihexyl phosphorodithioato-kappaS,kappaS')-, (T-4)-
Zinc dinhexyl phosphorodithioate
DTXCID2047355
Zinc bis(O,Odihexyl) bis(dithiophosphate)
Phosphorodithioic acid, O,Odihexyl ester, zinc salt
Zinc, bis(O,Odihexyl phosphorodithioatokappaS,kappaS'), (T4)
230-700-3
UNII-I528428C1O
SCHEMBL345959
ZBDJNBFTEIUHPK-UHFFFAOYSA-L
Q27280459
Solubility of Zinc; Dihexoxy-Sulfido-Thioxo-Lambda5-Phosphane
The solubility of zinc; dihexoxy-sulfido-thioxo-lambda5-phosphane can be quite complex due to the nature of its chemical components. This compound features multiple functional groups that influence its interactions with solvents. Here are some key points to consider:
Overall, while the solubility of zinc; dihexoxy-sulfido-thioxo-lambda5-phosphane in water may be limited, its solubility in organic solvents could be substantially higher. Therefore, understanding the precise solvent interactions is crucial for applications in chemical formulations. As the saying goes, "Like dissolves like," so the choice of solvent will play a significant role in determining the solubility of this fascinating compound.