Bis(2-{[(diphenoxyphosphoryl)amino]ethyl})-N,N,N',N'-tetramethyl-1,8-octanediaminium

Identification

Molecular formula

C₃₆H₅₆N₄O₆P₂

CAS number

871889-26-6

IUPAC name

2-(diphenoxyphosphorylamino)ethyl-[8-[2-(diphenoxyphosphorylamino)ethyl-dimethyl-ammonio]octyl]-dimethyl-ammonium

State

At room temperature, the compound exists as a solid. The presence of multiple dimethylammonium and phosphoryl groups contribute to its stability in the solid state. It does not easily transition to a liquid or gaseous state without the application of significant heat, which aligns with its relatively high melting point.

Melting point (Celsius)

197.00

Melting point (Kelvin)

470.15

Boiling point (Celsius)

271.00

Boiling point (Kelvin)

544.15

General information

Molecular weight

607.75g/mol

Molar mass

607.7470g/mol

Density

1.1245g/cm³

Appearence

The compound appears as a white crystalline solid. Its crystalline structure is typically well-formed with distinct edges and clear reflective surfaces, common among aminium salts. It dissolves readily in many organic solvents, but shows limited solubility in water due to its size and structure.

Comment on solubility

Solubility of 2-(diphenoxyphosphorylamino)ethyl-[8-[2-(diphenoxyphosphorylamino)ethyl-dimethyl-ammonio]octyl]-dimethyl-ammonium

The solubility of this complex compound can be influenced by several factors, making it a noteworthy subject of study. Understanding its solubility is crucial as it determines its behavior in different environments and potential applications. Below are some key points regarding its solubility characteristics:

Polar vs Non-polar: Given the presence of diphenoxy and ammonium groups, the compound may exhibit dual characteristics, allowing it to be soluble in both polar solvents (like water) and non-polar solvents (such as organic solvents).
Hydrophilicity: The ammonium groups confer hydrophilic properties, leading to potential solubility in aqueous solutions. This feature can assist in biological interactions or formulations requiring water miscibility.
Concentration Dependence: The solubility can vary significantly depending on concentration. At high concentrations, self-aggregation can occur, impacting the effective concentration.
Temperature Influence: Generally, increasing temperature enhances solubility for solids in liquids, hence testing solubility at various temperatures is essential.
Presence of Solvents: Solubility can also change in the presence of co-solvents or additives which can either stabilize or destabilize the compound in solution.

In summary, the solubility of 2-(diphenoxyphosphorylamino)ethyl-[8-[2-(diphenoxyphosphorylamino)ethyl-dimethyl-ammonio]octyl]-dimethyl-ammonium is multifaceted and requires comprehensive experimental analysis to fully understand its behavior under various conditions. As a result, further investigation is pivotal to unlock its potential applications in diverse fields.

Interesting facts

Interesting Facts About 2-(Diphenoxyphosphorylamino)ethyl-[8-[2-(diphenoxyphosphorylamino)ethyl-dimethyl-ammonio]octyl]-dimethyl-ammonium

This compound is a fascinating example of a phospholipid derivative, which plays a significant role in various biochemical processes. As a cationic amphiphile, it exhibits both hydrophilic and hydrophobic properties, making it a potential candidate for numerous applications in biotechnology and medicine.

Key Characteristics:

Biological Relevance: Compounds like this one can interact with lipid membranes, influencing cell permeability and serving as potential drug delivery systems.
Surface Activity: Due to its amphiphilic nature, this compound can lower surface tension, making it useful in formulations such as detergents and emulsifiers.
Phosphorylated Functionality: The presence of diphenoxyphosphoryl groups may confer unique reactivity and stability characteristics, enhancing its molecular versatility.

Moreover, it’s interesting to note that the structural complexity of this compound allows for a wide range of possible interactions with biological macromolecules, which can lead to new insights into cellular signaling processes. As research continues, we may find innovative applications in gene therapy, drug formulation, and even in nanotechnology.

As one researcher put it, "The synthesis of such multifunctional compounds is a stepping stone towards the development of new therapeutic agents." This reflects the ongoing enthusiasm surrounding the exploration of multifunctional compounds in modern chemistry.

In conclusion, the study of 2-(diphenoxyphosphorylamino)ethyl-[8-[2-(diphenoxyphosphorylamino)ethyl-dimethyl-ammonio]octyl]-dimethyl-ammonium not only enriches our understanding of chemical interactions but also opens new avenues for innovative solutions in health and technology.