Beryllium Hydroxynitroanilinophosphate trifluoride

Identification

Molecular formula

Be[OH]₂[C₈H₇N₂O₄P]₂F₃

CAS number

IUPAC name

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

State

At room temperature, the compound is typically in a solid state, maintaining its crystalline structure. The solid nature is due to the stable interactions between the metal beryllium and the attached anilinophosphate groups along with fluoride ions.

Melting point (Celsius)

32.00

Melting point (Kelvin)

305.15

Boiling point (Celsius)

200.00

Boiling point (Kelvin)

473.15

General information

Molecular weight

311.03g/mol

Molar mass

206.1270g/mol

Density

2.0480g/cm³

Appearence

The compound appears as a crystalline solid, which is typically a white or off-white color, reflective of its complex mixture of beryllium and various phosphate and fluoride ions. The appearance may vary slightly depending on purity and specific sample conditions.

Comment on solubility

Solubility of Beryllium Hydroxy[2-(2-nitroanilino)ethoxy]phosphoryl Hydrogen Phosphate Trifluoride

The solubility of the compound beryllium;[hydroxy-[2-(2-nitroanilino)ethoxy]phosphoryl] hydrogen phosphate;trifluoride, represented by the formula Be[OH]₂[C₈H₇N₂O₄P]₂F₃, exhibits distinct characteristics influenced by its complex molecular structure.

Key Considerations for Solubility:

Presence of Strong Bonds: The strong beryllium-fluoride and phosphonate bonds may restrict solubility in many organic solvents.
Polarity of the Compound: The presence of polar groups, such as hydroxyl and phosphate, typically enhances solubility in polar solvents like water.
Hydrogen Bonding: The hydroxyl group may engage in hydrogen bonding, which can further increase solubility in water.
Concentration Effects: At lower concentrations, the solubility may vary widely due to the interactions between the different functional groups.

In summary, while Be[OH]₂[C₈H₇N₂O₄P]₂F₃ may have enhanced solubility in polar solvents due to its hydroxyl and phosphate functional groups, the overall solubility profile is likely affected by the interplay of various factors such as solute-solvent interactions and structural complexities. It is worth noting that the exact solubility can vary based on environmental conditions like temperature and pH.

Interesting facts

Insights into Beryllium Hydroxy [2-(2-Nitroanilino)ethoxy] Phosphoryl Hydrogen Phosphate Trifluoride

Beryllium is a fascinating element with significant implications in various fields, particularly in the realm of advanced materials and pharmaceuticals. The compound in question combines beryllium with a complex organic moiety, creating a unique hybrid compound. Here are some interesting facts about this compound:

Innovative Applications: Beryllium compounds are important in the production of aerospace components due to their high strength-to-weight ratio. This specific compound, with its organic and inorganic components, may have potential uses in targeted drug delivery systems, leveraging the properties of beryllium for medicinal purposes.
Environment and Safety: While beryllium is useful, it is also toxic. Understanding its interactions with organic compounds is critical in ensuring safe handling and minimizing exposure risks.
Synergistic Properties: The presence of the nitroaniline group could contribute to interesting reactivity and bonding characteristics, influencing the overall behavior of beryllium in chemical reactions and possibly enhancing efficacy in certain applications.
Analytical Chemistry: Beryllium compounds often require sophisticated analytical techniques for characterization. Techniques such as NMR, mass spectrometry, and X-ray crystallography may be employed to unveil the structural intricacies of such hybrid compounds.

The combination of beryllium with a phosphoryl moiety adds another layer of complexity. Phosphoryl groups are known for their role in biochemistry, particularly in energy-transfer processes, which may render this compound attractive for research in biochemical applications. As we probe further, the exploration of its interactions with biological systems could lead to exciting discoveries.

In conclusion, the study of beryllium compounds like this one presents both challenges and opportunities. As quoted by famous chemist Linus Pauling, “The best way to have a good idea is to have a lot of ideas.” Thus, the promise of such compounds inspires continued research and creative thinking in the field of chemistry.