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3-Allylisothiourea

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Identification
Molecular formula
C4H8N2S
CAS number
592-11-0
IUPAC name
3-allylisothiourea
State
State

At room temperature, 3-allylisothiourea is typically in a solid state. It can be easily handled and stored in stable conditions.

Melting point (Celsius)
104.00
Melting point (Kelvin)
377.00
Boiling point (Celsius)
150.00
Boiling point (Kelvin)
423.00
General information
Molecular weight
130.19g/mol
Molar mass
130.2020g/mol
Density
1.0204g/cm3
Appearence

3-Allylisothiourea typically appears as a crystalline solid or powder and is white to light yellow in color. It has a strong sulfurous smell due to the presence of thiourea group in its structure.

Comment on solubility

Solubility of 3-allylisothiourea

3-allylisothiourea, with its distinctive molecular structure, exhibits notable solubility characteristics that are essential for various applications. This compound is primarily soluble in:

  • Aqueous Solutions: 3-allylisothiourea shows good solubility in water due to hydrogen bonding capabilities.
  • Organic Solvents: It can also dissolve in organic solvents like ethanol and methanol, increasing its versatility in chemical processes.

It's important to remember that the solubility of 3-allylisothiourea can be influenced by several factors:

  1. Temperature: Increased temperature typically enhances solubility.
  2. pH Levels: The solvation process may vary with different pH conditions due to protonation effects.
  3. Concentration: Higher concentrations can lead to saturation, thus affecting solubility dynamics.

In conclusion, the solubility of 3-allylisothiourea is an intriguing aspect to consider, especially when it comes to its reactivity and potential utility in various fields. To quote a famous chemist, “Solubility is the gateway to chemical interactions.” Understanding its solubility profile is key to fully leveraging its chemical properties.

Interesting facts

Exploring 3-Allylisothiourea

3-Allylisothiourea is a fascinating compound that captures the attention of both chemists and biochemists due to its unique structural characteristics and applications. This thiourea derivative, exhibiting a versatile allyl group, offers intriguing possibilities in various domains, ranging from medicinal chemistry to agricultural sciences.

Key Characteristics

  • Multi-faceted applications: 3-Allylisothiourea can be used in the synthesis of various bioactive compounds, showcasing its significance in the development of pharmaceuticals and agrochemicals.
  • Inhibition properties: It has been studied for its ability to inhibit certain enzymes, making it a valuable compound for research into enzyme kinetics and metabolic pathways.
  • Research potential: Studies have indicated that derivatives of 3-Allylisothiourea may possess anti-cancer properties, adding a compelling aspect to its biological activity.

Interesting Facts

This compound is not only significant in the laboratory but also highlights the rich interplay between chemistry and biology. Its distinct properties stem from the following:

  • Thiocarbamothioyl: The presence of the thiourea functional group imparts unique reactivity and interaction with biological systems.
  • Diverse synthetic routes: There are multiple pathways for creating 3-allylisothiourea, allowing chemists to explore variations and optimize production methods.
  • Structure-activity relationship: Ongoing research often focuses on how structural modifications of the compound can impact its biological efficacy, demonstrating the dynamic nature of chemical research.

In summary, 3-Allylisothiourea is an exemplary compound that emphasizes the synergy between organic chemistry and biological application, leading to innovations that could significantly impact healthcare and agriculture. As scientists continue to investigate its properties, we may unlock even more valuable applications that aid in solving contemporary challenges.