Tetramethoxypropylaminophosphonium dichloride

Identification

Molecular formula

C₃₄H₄₈Cl₂N₂O₆

CAS number

1264-15-1

IUPAC name

9,10,21,25-tetramethoxy-15,15,30,30-tetramethyl-7,23-dioxa-15,30-diazoniaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene;dichloride

State

At room temperature, the compound is generally found in a solid crystalline state.

Melting point (Celsius)

223.00

Melting point (Kelvin)

496.15

Boiling point (Celsius)

380.00

Boiling point (Kelvin)

653.15

General information

Molecular weight

826.75g/mol

Molar mass

826.7520g/mol

Density

1.6670g/cm³

Appearence

The compound is typically found as a crystalline solid. It is usually off-white or pale yellow in appearance, although minor color variations might be observed depending on its purity or the presence of impurities.

Comment on solubility

Solubility of 9,10,21,25-tetramethoxy-15,15,30,30-tetramethyl-7,23-dioxa-15,30-diazoniaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene;dichloride

The solubility of this compound, with its intricate and complex structure, is influenced by several factors, including polarity, molecular size, and the presence of functional groups. Here’s a breakdown of its solubility characteristics:

Polarity: Given the presence of multiple methoxy groups (–OCH₃), the compound exhibits polar characteristics that may enhance its solubility in polar solvents such as water and alcohols.
Molecular Size: With a highly complex structure, its large molecular size can impede solubility in traditional organic solvents, preferring instead those with similar polarities.
Interactions: The ability to form hydrogen bonds with water and other polar solvents can significantly affect solubility, possibly increasing it due to the numerous –OCH₃ groups.
Experimental Factors: Changes in temperature and the presence of salts or surfactants may further influence the solubility of this compound in solution.

Overall, while the intricacy of this compound may suggest challenges regarding solubility, its polar functional groups are likely to impart reasonable solubility properties, particularly in polar solvents. Exploring various solvent systems would provide greater insight into specific solubility behavior.

Interesting facts

Interesting Facts about 9,10,21,25-tetramethoxy-15,15,30,30-tetramethyl-7,23-dioxa-15,30-diazoniaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene; dichloride

This remarkable compound is a member of the family of organic compounds that exhibit impressive structural complexity with multiple functional groups. Below are some fascinating insights into this intriguing chemical:

Multicyclic Structure: The compound features a unique heptacyclic framework, which not only enhances its stability but also contributes to the unusual electronic properties observed in many polycyclic systems.
Chromophoric Properties: The extensive conjugation present within its structure, characterized by multiple double bonds, leads to unique optical characteristics that can be harnessed in various applications, such as dyes and pigments.
Ion-Pairing Characteristics: As indicated by its designation as a dichloride, the compound can form ionic pairs, which may allow for interesting applications in coordination chemistry and materials science.
Biological Relevance: Compounds with similar structural motifs often exhibit biological activity, including potential applications in pharmaceuticals or agriculture. The exploration of such analogs could lead to groundbreaking discoveries.
Methodologies for Synthesis: The synthesis of such a complex compound often involves multi-step reactions, utilizing advanced techniques like cross-coupling reactions, cycloadditions, or template-directed synthesis to achieve high yields and specificity.

In summary, 9,10,21,25-tetramethoxy-15,15,30,30-tetramethyl-7,23-dioxa-15,30-diazoniaheptacyclo[22.6.2.23,6.18,12.118,22.027,31.016,34]hexatriaconta-3(36),4,6(35),8(34),9,11,18(33),19,21,24,26,31-dodecaene; dichloride is more than just a complex quote of chemical nomenclature; it is a compound brimming with potential and scientific intrigue. Its multifaceted structure promises a wealth of research opportunities in both theoretical and applied chemistry.