Ammonium guanidine nitrate | Solubility of Things

Identification

Molecular formula

C₈H₁₄N₄O₃

CAS number

70629-68-0

IUPAC name

[[N'-(p-tolylmethyl)carbamimidoyl]amino]ammonium;nitrate

State

This compound is typically found as a solid at room temperature.

Melting point (Celsius)

148.00

Melting point (Kelvin)

421.15

Boiling point (Celsius)

235.00

Boiling point (Kelvin)

508.15

General information

Molecular weight

182.15g/mol

Molar mass

182.1490g/mol

Density

1.3000g/cm³

Appearence

Ammonium guanidine nitrate typically appears as a crystalline solid that is white to off-white in color. It could be powdery or granular in texture.

Comment on solubility

Solubility of [N'-(p-tolylmethyl)carbamimidoyl]amino]ammonium;nitrate

The solubility of the compound [N'-(p-tolylmethyl)carbamimidoyl]amino]ammonium;nitrate is influenced by several factors, primarily its molecular structure and the presence of functional groups. Here are some key points to consider:

Polarity: The presence of the ammonium group typically increases solubility in polar solvents, such as water.
Indicative Use: Salts, like nitrates, generally dissolve readily in water due to their ionic nature.
Hydrogen Bonding: The functional groups can participate in hydrogen bonding, enhancing solubility.
Temperature Dependence: Solubility is often temperature-dependent; higher temperatures may increase the solubility of this compound in aqueous solutions.

In general, one might expect this compound to exhibit good solubility characteristics in water due to its ionic properties and the presence of polar functional groups. However, experimental solubility data is essential for precise information.

As a side note, to quote a common principle in chemistry, “Like dissolves like,” which reinforces the importance of matching polarities for solubility determinacy.

Interesting facts

Interesting Facts About [N'-(p-tolylmethyl)carbamimidoyl]amino]ammonium nitrate

The compound [N'-(p-tolylmethyl)carbamimidoyl]amino]ammonium nitrate is a fascinating member of the chemical frontier, showcasing a blend of organic and inorganic characteristics. Its unique structure and properties make it a subject of interest for chemists engaged in the study of biomolecules and material science.

Key Features:

Hybrid Nature: This compound embodies a hybrid organic-inorganic framework, making it an excellent candidate for applications that require both stability and reactivity.
Biological Relevance: The presence of the carbamimidoyl group hints at potential biocompatibility, paving the way for applications in medicinal chemistry.
Versatile Synthesis: The synthesis of this compound can serve as a platform for understanding the reactions involving nitrates and organic amines, essential in various chemical pathways.

Interestingly, ammonium nitrates in general are known for their *energetic properties*. This compound could potentially be explored in the context of *energetic materials*, though careful handling is paramount due to safety considerations when dealing with nitrogen-based compounds.

Research Applications:

Medicinal Chemistry: Its structural components may lead to new drug design platforms targeting specific biological pathways.
Material Science: The reactivity and stability can be relevant in the formulation of new materials or catalysts.

In summary, [N'-(p-tolylmethyl)carbamimidoyl]ammonium nitrate is more than just a chemical compound; it represents a bridge between organic chemistry and practical applications, inviting researchers to explore its potential in diverse scientific fields.