Creatine Monohydrochloride | Solubility of Things

Identification

Molecular formula

C₄H₁₁N₃O₂Cl

CAS number

6020-87-7

IUPAC name

[N'-[2-[[amino(azaniumyl)methylene]amino]ethyl]carbamimidoyl]ammonium;dichloride

State

Creatine Monohydrochloride is generally found as a solid at room temperature. It is stable and more soluble in water compared to creatine monohydrate, making it a popular choice for supplementation.

Melting point (Celsius)

302.00

Melting point (Kelvin)

575.00

Boiling point (Celsius)

230.00

Boiling point (Kelvin)

503.00

General information

Molecular weight

167.59g/mol

Molar mass

167.5940g/mol

Density

1.3000g/cm³

Appearence

Creatine Monohydrochloride typically appears as a fine, crystalline powder that is white in color. It is known for its increased solubility in water compared to other forms of creatine, such as creatine monohydrate.

Comment on solubility

Solubility of N'-[2-[[amino(azaniumyl)methylene]amino]ethyl]carbamimidoyl]ammonium;dichloride

The compound N'-[2-[[amino(azaniumyl)methylene]amino]ethyl]carbamimidoyl]ammonium;dichloride, with the chemical formula C₄H₁₁N₃O₂Cl, exhibits notable solubility characteristics that are influenced by its ionic nature and the presence of functional groups. Here are the key points regarding its solubility:

High Solubility in Water: The presence of charged ammonium groups contributes to its strong solubility in polar solvents like water. Ionic compounds typically dissolve well due to the interaction with water molecules.
Solvent Specificity: While the compound is primarily soluble in water, it may have limited solubility in nonpolar solvents, given its polar structure.
Influence of Temperature: Solubility may also be temperature-dependent, with increased temperatures often enhancing solubility due to greater kinetic energy breaking solute-solvent interactions.
pH Sensitivity: The solubility can vary with pH, as the ionization state of the ammonium group may change, thus affecting solubility dynamics.

In summary, N'-[2-[[amino(azaniumyl)methylene]amino]ethyl]carbamimidoyl]ammonium;dichloride is characterized by its high solubility in water, influenced by its ionic nature and the potential effects of temperature and pH.

Interesting facts

Interesting Facts about N'-[2-[[amino(azaniumyl)methylene]amino]ethyl]carbamimidoyl]ammonium;dichloride

N'-[2-[[amino(azaniumyl)methylene]amino]ethyl]carbamimidoyl]ammonium;dichloride is a fascinating compound with a range of applications and properties that reflect its complex structure. Here are some intriguing insights:

Origins in Biochemistry: This compound, with its various functional groups, showcases the importance of amino groups in biochemical reactions, particularly in enzymatic activities. Compounds like this are often utilized in studies involving amino acid interactions.
Dual Role: The compound acts not only as a base due to the presence of ammonium but also as a nucleophilic agent, making it versatile in synthetic chemistry, paving the way for complex molecular syntheses.
Potential Antimicrobial Properties: Some studies suggest that compounds similar to this may exhibit antimicrobial activities due to their ability to interfere with bacterial populations. This opens doors for potential medicinal applications.
Research and Development: Its unique structure is a point of interest in pharmaceutical research, serving as a model for drug design. The exploration of structural analogs could lead to the development of effective therapeutic agents.
Electrolytic Behavior: The dichloride component offers intriguing properties regarding solubility and ionic behavior in solution, which can be pivotal in understanding electrolyte dynamics in biological systems.

As you dive deeper into the study of this compound, remember the significance of its functional groups and their interactions. The complexity of molecules like N'-[2-[[amino(azaniumyl)methylene]amino]ethyl]carbamimidoyl]ammonium;dichloride serves as a reminder of the richness found within chemical chemistry, and the potential it holds for future discoveries.