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Potassium N-(4-aminophenyl)sulfonyl-1-methoxy-methanimidate

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Identification
Molecular formula
K2C8H9N2O3S
CAS number
7150-53-0
IUPAC name
potassium;N-(4-aminophenyl)sulfonyl-1-methoxy-methanimidate
State
State
The compound is typically in a solid state at room temperature, characterized by its crystalline structure and firmness.
Melting point (Celsius)
192.00
Melting point (Kelvin)
465.15
Boiling point (Celsius)
295.00
Boiling point (Kelvin)
568.15
General information
Molecular weight
278.37g/mol
Molar mass
278.3690g/mol
Density
1.3700g/cm3
Appearence
N-(4-aminophenyl)sulfonyl-1-methoxy-methanimidate potassium salt typically appears as a solid crystalline substance. The crystals are generally white to off-white in color, depending on purity and other environmental factors.
Comment on solubility

Solubility of Potassium N-(4-Aminophenyl)sulfonyl-1-methoxy-methanimidate

The solubility of potassium N-(4-aminophenyl)sulfonyl-1-methoxy-methanimidate is an intriguing aspect of its chemical behavior. Generally, the solubility of such compounds can be influenced by several factors:

  • Polarity: The presence of functional groups, such as the sulfonyl and amino groups, can enhance solubility in polar solvents, particularly water.
  • Ionic Strength: As a potassium salt, the ionic strength of the solution may improve solubility due to the dissociation of ions.
  • Hydrogen Bonding: The ability of the compound to engage in hydrogen bonding with solvent molecules can further facilitate its dissolution.

In practical terms, this compound is likely to exhibit moderate solubility in aqueous solutions. As noted, the balance between the polar functional groups and the overall molecular structure significantly affects its solubility profile.

However, experimental observations are essential for precise determinations of solubility under various conditions, such as:

  1. Temperature variations
  2. pH levels of the solvent
  3. Presence of other solutes

In summary, while theoretical predictions provide a framework, actual solubility data will yield the most reliable insights into the behavior of potassium N-(4-aminophenyl)sulfonyl-1-methoxy-methanimidate in solution.

Interesting facts

Interesting Facts About Potassium N-(4-Aminophenyl)sulfonyl-1-methoxy-methanimidate

This compound, formally known as potassium N-(4-aminophenyl)sulfonyl-1-methoxy-methanimidate, is a fascinating entity in the realm of organic chemistry, particularly due to its potential applications and unique structure. Here are some engaging insights:

  • Dual Functionality: The presence of the sulfonyl group in this compound enhances both its reactivity and solubility in various organic solvents. This versatility can lead to interesting reactions in synthetic processes.
  • Biological Implications: Compounds like these, which feature an aminophenyl motif, are often investigated for their potential biological activities. They can serve as important building blocks in drug design, especially in the development of pharmaceuticals targeting specific biological pathways.
  • Versatile Applications: The methoxy group in the compound provides additional functional versatility, allowing for modifications that can fine-tune the compound’s properties, such as increased stability or enhanced reactivity in biochemical tests.
  • Research Interest: Chemists are particularly drawn to compounds with a sulfonamide structure, as they have been associated with various medicinal applications and have garnered significant attention for their roles in antibiotic mechanisms.
  • Synthetic Pathways: The routes for synthesizing N-(4-aminophenyl)sulfonyl derivatives often involve innovative methodologies, leading to a deeper understanding of reaction mechanisms and intermediates in organic synthesis.

"Chemistry is not just about formulas; it's about imagination and possibilities!" This statement rings true when we explore compounds like potassium N-(4-aminophenyl)sulfonyl-1-methoxy-methanimidate, which exemplifies the beauty of molecular design and its importance in scientific innovation.

In summary, the exploration of this compound opens doors to various domains in chemistry, potentially leading to new discoveries and advancements in both **academia** and **industry**.