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Diethoxyphosphanyl-diethyl-[hydroxy(methoxy)phosphoryl]ammonium

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Identification
Molecular formula
C9H24NO5P2
CAS number
74267-35-5
IUPAC name
diethoxyphosphanyl-diethyl-[hydroxy(methoxy)phosphoryl]ammonium
State
State

The compound is typically in a liquid state at room temperature due to the combination of alkyl and phosphate moieties, which decrease the compound's melting point significantly. This is commonly observed in organophosphorus compounds, which often occur as either liquids or low-melting solids.

Melting point (Celsius)
-50.00
Melting point (Kelvin)
223.15
Boiling point (Celsius)
258.00
Boiling point (Kelvin)
531.15
General information
Molecular weight
289.25g/mol
Molar mass
289.2880g/mol
Density
1.2300g/cm3
Appearence

The compound appears as a colorless to pale yellow liquid. It may have a characteristic odor. As a chemical compound with organophosphorus characteristics, it may have reactive functionalities, depending on the surrounding environment and conditions.

Comment on solubility

Solubility of Diethoxyphosphanyl-Diethyl-[Hydroxy(Methoxy)Phosphoryl]Ammonium

The solubility of diethoxyphosphanyl-diethyl-[hydroxy(methoxy)phosphoryl]ammonium can be quite fascinating due to its complex structure. Here are some key points to consider:

  • Solvent Dependent: The solubility of this compound may vary significantly depending on the solvent used. Water, ethanol, and organic solvents could exhibit different solubility behaviors.
  • Polar vs. Non-Polar: Given the presence of both polar functional groups (like the hydroxyl and amino groups) and non-polar alkyl chains, it is likely to be more soluble in polar solvents compared to non-polar ones.
  • Hydrogen Bonding: The ability to form hydrogen bonds due to hydroxyl and ammonium functionalities can enhance its solubility in polar solvents, making it a potential candidate for interaction in biological systems.
  • Complex Formation: Its solubility may also be influenced by the formation of complexes with specific ions or other molecules, which can aid in increasing the overall solubility.

In conclusion, while the specific solubility data for diethoxyphosphanyl-diethyl-[hydroxy(methoxy)phosphoryl]ammonium may not be readily available, understanding its structural attributes gives researchers important insights into predicting its behavior in various solutions. This compound’s intricate design hints at a versatile solubility profile, making it worthy of further investigation.

Interesting facts

Interesting Facts about Diethoxyphosphanyl-diethyl-[hydroxy(methoxy)phosphoryl]ammonium

Diethoxyphosphanyl-diethyl-[hydroxy(methoxy)phosphoryl]ammonium is a fascinating compound with a range of intriguing characteristics and potential applications. Here are some insights about this compound:

  • Complex Structure: The molecule contains multiple functional groups, including phosphanyl, hydroxy, and methoxy moieties, which can contribute to its reactivity and versatility in chemical reactions.
  • Potential Applications: This compound may find applications in areas such as agrochemicals, pharmaceuticals, and as a building block in synthetic chemistry due to its distinctive structural features.
  • Biological Activity: Compounds with phosphorus in their structure often exhibit interesting biological properties, making this compound a subject of interest for biochemistry and medicinal chemistry.
  • Environmental Impact: Understanding the behavior and breakdown of phosphorus-containing compounds like this one is essential for assessing their environmental impact and ensuring they are sustainable in their applications.
  • Synthetic Pathways: The synthesis of this compound opens discussions about various synthetic methodologies, showcasing the importance of green chemistry approaches that minimize waste and hazardous byproducts.

In summary, Diethoxyphosphanyl-diethyl-[hydroxy(methoxy)phosphoryl]ammonium is not only structurally captivating but also rich in potential applications and research avenues. As we further explore the capabilities of phosphorus-based compounds, this specific molecule may contribute significantly to advancements in multiple scientific fields.