Thiosemicarbazide hydrate | Solubility of Things

Identification

Molecular formula

C₁₄H₂₈N₆S₃

CAS number

22355-13-9

IUPAC name

3-[[10-[[amino(sulfanyl)methylene]hydrazono]-1-methyl-undecylidene]amino]isothiourea;hydrate

State

The compound is typically a solid at room temperature, appearing as a white crystalline powder. It is stable under normal conditions but should be kept in a cool, dry place away from moisture.

Melting point (Celsius)

179.00

Melting point (Kelvin)

452.15

Boiling point (Celsius)

145.00

Boiling point (Kelvin)

418.15

General information

Molecular weight

179.27g/mol

Molar mass

179.2660g/mol

Density

1.1110g/cm³

Appearence

Thiosemicarbazide hydrate appears as a white crystalline powder. It is visually identifiable by its clean, off-white appearance, and typically exists in a solid state at room temperature.

Comment on solubility

Solubility of 3-[[10-[[amino(sulfanyl)methylene]hydrazono]-1-methyl-undecylidene]amino]isothiourea;hydrate

The solubility of 3-[[10-[[amino(sulfanyl)methylene]hydrazono]-1-methyl-undecylidene]amino]isothiourea;hydrate is influenced by several factors, mainly due to its complex structure. This compound can be categorized within a class of organic molecules that exhibit variable solubility characteristics depending on the solvent used.

Factors Affecting Solubility:

Polarity of the Solvent: The solubility tends to increase in polar solvents, particularly water, where hydrogen bonding can play a significant role.
Hydration Effects: As it is a hydrate, the presence of water molecules can lead to enhanced solubility, creating interactions that stabilize the solute.
Temperature: Generally, an increase in temperature can boost solubility for many compounds, especially if endothermic dissolution processes are involved.
Presence of Functional Groups: The existence of amino and thiourea groups can affect solubility, as they can engage in intermolecular interactions, leading to different solubility profiles in varying solvents.

It is also essential to note that, due to its specialized amino and thiourea functionalities, 3-[[10-[[amino(sulfanyl)methylene]hydrazono]-1-methyl-undecylidene]amino]isothiourea;hydrate may display intriguing behavior in biological systems, potentially showing solubility in several biological media. The combination of hydrophobic and hydrophilic regions within its structure could lead to selective solubility that merits further investigation. Thus, the solubility characteristics of this compound are as multifaceted as its structure, making it an interesting subject of study in various chemical environments.

Interesting facts

Interesting Facts about 3-[[10-[[amino(sulfanyl)methylene]hydrazono]-1-methyl-undecylidene]amino]isothiourea;hydrate

This intriguing compound, commonly referred to as an isothiourea derivative, showcases unique structural features that contribute to its reactivity and potential biological activity. Here are some fascinating insights:

Biological Significance: Isothiourea compounds are often studied for their potential in medicinal chemistry due to their ability to interact with various biological targets. This particular compound may exhibit interesting pharmacological properties that warrant further exploration.
Hydrazone Formation: The presence of the hydrazono functional group indicates that this compound can participate in condensation reactions, leading to the formation of hydrazones. Such reactions are pivotal in organic synthesis due to their versatility.
Thiol Group Interaction: The amino(sulfanyl) component of the molecule signifies the presence of a thiol group, which is known for its nucleophilic properties. This feature increases the compound's potential to engage in biochemical interactions, enhancing its relevance in research.
Carbon Chain Influence: The long undecyl chain in the structure may contribute to the compound's hydrophobic character, impacting its solubility and biological interactions. This property often plays a crucial role in drug discovery and design.
Research Applications: Given its complex structure, researchers could explore its role in various fields, including medicinal chemistry, agricultural chemistry, or even as a synthetic intermediate in organic reactions.

This compound stands out for its potential applications and the intricate chemistry it embodies. Further studies may reveal more about its activities and properties, making it a notable topic of interest for scientists and researchers alike. As scientist George Washington Carver once said, "Anything will give up its secrets if you love it enough." Thus, delving into this compound could unlock invaluable secrets yet to be discovered.