Beryllium trifluoride | Solubility of Things

Identification

Molecular formula

BeF₂

CAS number

7787-49-7

IUPAC name

beryllium;[hydroxy-[2-(4-nitroanilino)ethoxy]phosphoryl] hydrogen phosphate;trifluoride

State

At room temperature, beryllium trifluoride is in a solid state. It is stable under standard conditions of temperature and pressure.

Melting point (Celsius)

554.00

Melting point (Kelvin)

827.15

Boiling point (Celsius)

800.00

Boiling point (Kelvin)

1 073.15

General information

Molecular weight

67.21g/mol

Molar mass

67.2100g/mol

Density

1.9860g/cm³

Appearence

Beryllium trifluoride appears as a white, crystalline solid. It is typically odorless and has a fine crystalline texture. When it is pure, it is completely white in color. It is known for its high thermal stability and unique chemical properties.

Comment on solubility

Solubility of Beryllium Hydroxy-Phosphoryl Compound

The compound beryllium; [hydroxy-[2-(4-nitroanilino)ethoxy]phosphoryl] hydrogen phosphate; trifluoride, represented by the formula BeF₂, exhibits interesting solubility characteristics that merit discussion.

General Solubility Trends

When assessing the solubility of this compound, several factors come into play:

Ion Association: The beryllium ion (Be²⁺) tends to form complexes with various ligands, which can affect its solubility.
pH Dependency: The solubility of beryllium compounds often increases in more acidic environments due to the formation of soluble species.
Interactions with Water: The presence of fluorine atoms in BeF₂ typically promotes a favorable interaction with water, enhancing solubility.

Specific Insights

For BeF₂, the following observations can be made:

Soluble in Water: Beryllium fluoride is generally considered soluble in water, forming a straightforward solution.
Complex Formation: Its solubility may vary with temperature and concentration, as it can form complex ions with water and other species.
Effect of Ligands: The presence of ligands from the organic components can influence the solubility profiles and lead to variations in behavior.

In summary, understanding the solubility of BeF₂ requires a multifaceted approach, considering ionic interactions, environmental conditions, and the influence of associated molecules. As observed, **the solubility behavior can open avenues for further applications and studies** in both inorganic and organic chemistry.

Interesting facts

Interesting Facts about Beryllium; Hydroxy-[2-(4-nitroanilino)ethoxy]phosphoryl Hydrogen Phosphate; Trifluoride

Beryllium compounds, including this unique trifluoride derivative, showcase fascinating properties that intrigue chemists and material scientists alike. Here are some points of interest:

Complex Composition: This compound features a beryllium center surrounded by intricate organic and inorganic functionalities, including hydroxy and nitroaniline groups. Such structural complexity allows this compound to exhibit a range of properties.
Applications in Materials Science: With beryllium known for its stiffness and lightweight, derivatives like this one are considered for use in high-performance materials, such as aerospace components, where weight and strength are crucial.
Chemical Reactions: The presence of phosphorous and nitrogen functionalities in the compound may lead to interesting chemical reactivity, including potential applications in catalysis or pharmaceuticals. The phosphate moiety can also play a role in bioactivity.
Toxicity Considerations: While beryllium itself is toxic, understanding the toxicological profiles of its compounds is essential in their safe handling and application. Safety measures must always be emphasized in related research.
Research Potentials: The unique structure of this compound may inspire new research directions in the fields of drug development or nanotechnology, where the combination of organic and inorganic elements can yield innovative solutions.

In summary, beryllium; hydroxy-[2-(4-nitroanilino)ethoxy]phosphoryl hydrogen phosphate; trifluoride is not just a compound of interest due to its beryllium content, but also due to the fascinating interplay between its organic and inorganic components. Understanding such compounds can lead to advancements in both chemistry and materials science, providing a wealth of opportunities for future exploration.

Synonyms

p-nitrophenyl aminoethyldiphosphate beryllium trifluoride

Q27464499