Decaborane(14) | Solubility of Things

Identification

Molecular formula

B₁₀H₁₄

CAS number

17702-41-9

IUPAC name

boranyl(ethylboranylboranylboranylboranylboranylboranylboranylboranyl)borane

State

At room temperature, decaborane exists as a solid. It is stable under normal conditions but may sublimate slowly.

Melting point (Celsius)

99.60

Melting point (Kelvin)

372.75

Boiling point (Celsius)

213.00

Boiling point (Kelvin)

486.15

General information

Molecular weight

123.00g/mol

Molar mass

122.9960g/mol

Density

0.9400g/cm³

Appearence

Decaborane(14) appears as a colorless or white crystalline solid. It is often seen in the form of small, needle-like crystals or crystalline powders.

Comment on solubility

Solubility of Boranyl(ethylboranylboranylboranylboranylboranylboranylboranyl)borane

The solubility of boranyl(ethylboranylboranylboranylboranylboranylboranylboranyl)borane in various solvents is a fascinating topic, considering its complex structure. Generally, the solubility behavior can be influenced by several critical factors:

Polar vs. Nonpolar Solvents: Like many boron compounds, this particular borane is likely to be more soluble in nonpolar solvents due to its hydrocarbon-like nature.
Hydrophobic Interactions: The larger the alkyl groups present in a borane structure, the more prominent the hydrophobic interactions become, further enhancing solubility in organic solvents.
Temperature: Higher temperatures may improve solubility, allowing more boranyl compounds to dissolve, affecting kinetic factors and disrupting crystal lattice structures.
concentration: The solubility of such complex boranes can also depend on their concentration in a given solvent, with lower solubility at higher concentrations due to potential aggregation.

However, the exact solubility can vary significantly and may still need to be established through experimental methods. In practice, it is often reported that certain boranes exhibit limited solubility in water, exhibiting tendencies to form gels or precipitates instead. As you delve deeper into the study of borane chemistry, understanding these subtleties will enhance your insight into their solubility behaviors!

Interesting facts

Exploring Boranyl(ethylboranylboranylboranylboranylboranylboranylboranyl)borane

Boranyl(ethylboranylboranylboranylboranylboranylboranylboranyl)borane is a fascinating compound within the realm of boron chemistry. This compound showcases the intriguing behaviors and properties that boron is capable of, making it an important subject of research. Below are some interesting facts about this complex molecule:

Unique Structure: The repeated units of ethylboranyl groups highlight boron's versatility and can lead to various bonding patterns.
Role in Organoboron Chemistry: Compounds like this one are often used in organic synthesis, providing pathways for creating advanced materials.
Electrophilic Nature: Boron is known for its electrophilic properties, which can enable reactions that are crucial in synthesizing pharmaceuticals and agrochemicals.
Potential Applications: Due to its complex structure, it might exhibit unique reactivity patterns that can be explored for catalysis or the development of novel chemical materials.
Study of Boron Clusters: This compound can be a starting point for understanding larger boron cluster systems, revealing insights into bonding and molecular stability.

As one delves deeper into the study of boron-containing compounds, it becomes evident that they do not merely serve as building blocks for more complex structures; they also challenge and expand the fundamental concepts of bonding and reactivity in chemistry. As stated by renowned chemist Elena C. K. Lai, "The world of boron chemistry opens doors to innovations that stretch far beyond traditional expectations."

This compound not only embodies the complexity of theoretical chemistry but also serves as a reminder of the wonders that lie within molecular interactions and the potential for new discoveries in the field.