2-ethoxy-2-hydroxy-ethenediazonium | Solubility of Things

Identification

Molecular formula

C₄H₅N₂O₂

CAS number

N/A

IUPAC name

2-ethoxy-2-hydroxy-ethenediazonium

State

At room temperature, it is usually in a crystalline solid state with potentially slight hygroscopic properties.

Melting point (Celsius)

65.00

Melting point (Kelvin)

338.15

Boiling point (Celsius)

120.00

Boiling point (Kelvin)

393.15

General information

Molecular weight

116.09g/mol

Molar mass

116.0880g/mol

Density

1.9800g/cm³

Appearence

The compound appears as a yellow crystalline solid under standard conditions. Due to its diazonium group, it may be unstable at elevated temperatures or in the presence of water, which could lead to decomposition.

Comment on solubility

Solubility of 2-ethoxy-2-hydroxy-ethenediazonium

2-ethoxy-2-hydroxy-ethenediazonium is an intriguing compound with specific solubility characteristics that can impact its applications in various chemical processes. Understanding its solubility can be summarized in the following key points:

Polar Nature: This compound displays a significant degree of polarity due to the presence of ether and hydroxyl groups, which typically enhance solubility in polar solvents like water.
Solvent Compatibility: 2-ethoxy-2-hydroxy-ethenediazonium is expected to dissolve readily in alcohols and other protic solvents, owing to hydrogen bonding interactions.
Temperature Dependency: Its solubility may increase with temperature, making it more soluble in warmer conditions, which is a common behavior for many organic compounds.
Ionization Considerations: Being a diazonium compound, it may dissociate in solution, affecting its overall solubility balance by producing various ionic species.

In summary, the solubility of 2-ethoxy-2-hydroxy-ethenediazonium is largely influenced by its chemical structure and the properties of the solvent involved. As with many organic compounds, the interplay of polarity and temperature plays a critical role in determining how well this compound can dissolve. In practical applications, ensuring compatibility with the chosen solvent system is essential to achieve optimal performance.

Interesting facts

Exploring 2-Ethoxy-2-hydroxy-ethenediazonium

2-Ethoxy-2-hydroxy-ethenediazonium is a fascinating compound that belongs to the category of diazonium salts, which are known for their unique reactivity and application in organic synthesis. Here are some intriguing facts about this compound:

Versatile Reactivity: Diazonium compounds, including 2-ethoxy-2-hydroxy-ethenediazonium, are renowned for their ability to undergo electrophilic substitution reactions. This allows for the introduction of various substituents onto aromatic systems, making them pivotal in the synthesis of complex organic molecules.
Colorful Chemistry: Many diazonium salts are capable of forming azo compounds through coupling reactions, which often results in vibrant colored dyes. This property has important implications in the textiles and art industries, where they are used to produce dyes of various hues.
Safety Note: While diazonium compounds can be extremely useful in organic chemistry, they are also known for their instability, especially in warm conditions. It is crucial to handle these compounds with care and follow safety protocols during their synthesis and use.
Historical Significance: The discovery of diazonium compounds dates back to the 19th century, marking a significant advancement in the field of organic chemistry. Their versatility has made them a subject of study for many renowned chemists.
Applications Beyond Synthesis: Apart from their importance in synthetic chemistry, 2-ethoxy-2-hydroxy-ethenediazonium and its relatives have applications in areas such as agriculture, where they can be utilized in the development of herbicides and pesticides.

In summary, the study of 2-ethoxy-2-hydroxy-ethenediazonium opens the door to a myriad of synthetic pathways and applications, exemplifying the elegance and utility of diazonium chemistry in both modern and historical contexts. Its unique properties continue to inspire chemists to explore new compounds and reaction mechanisms.