Phenylmercury(II) borate | Solubility of Things

Identification

Molecular formula

C₆H₅HgBO₃

CAS number

103-27-5

IUPAC name

dihydrogen borate;phenylmercury(1+)

State

At room temperature, phenylmercury(II) borate is typically a solid. It is usually handled as a powder with care due to its toxic nature.

Melting point (Celsius)

135.00

Melting point (Kelvin)

408.15

Boiling point (Celsius)

185.00

Boiling point (Kelvin)

458.15

General information

Molecular weight

342.47g/mol

Molar mass

342.4710g/mol

Density

3.4600g/cm³

Appearence

Phenylmercury(II) borate typically appears as a white or off-white solid. It is generally a powder and is known for its characteristic odor associated with organomercury compounds.

Comment on solubility

Solubility of Dihydrogen Borate; Phenylmercury(1+)

Dihydrogen borate; phenylmercury(1+) exhibits interesting solubility characteristics, which are crucial for its applications in various chemical processes.

Solubility in Water

The solubility of this compound in water can be influenced by several factors. It's essential to consider:

Ionic Nature: Phenylmercury(1+) introduces a cationic character, which can enhance its solubility in polar solvents.
pH Levels: The solubility may vary with changing pH; the presence of borates often allows for better solubility at higher pH values due to the formation of borate complexes.
Temperature: Increased temperatures generally improve solubility for many ionic compounds; this trend may also apply here.

Common Solvent Interactions

In addition to water, this compound may interact differently with organic solvents:

Polar Organic Solvents: Solubility may be feasible in polar organic solvents, considering the ionic dispersion capabilities.
Non-polar Solvents: Limited solubility may occur due to the hydrophobic phenyl group, creating a challenge when attempting to dissolve in non-polar environments.

Summary

To summarize, the solubility of dihydrogen borate; phenylmercury(1+) is dictated by ionic interactions, environmental pH, and thermal conditions. The interplay of these factors renders a complex but fascinating profile for researchers exploring this compound's potential.

Interesting facts

Dihydrogen Borate; Phenylmercury(1+)

Dihydrogen borate, also known as boric acid, is a fascinating compound with a rich history and numerous applications. Its interactions with other elements can lead to highly specialized products, particularly in the realm of materials science and biochemistry.

Key Characteristics:

Versatility in Applications: Dihydrogen borate is used in various industries, including agriculture as a pesticide and in woodworking to protect against insect damage.
Chemical Reactivity: This compound is known for its ability to act as a Lewis acid, facilitating reactions by accepting electrons, which is crucial in many organic syntheses.
Water of Crystalization: Interestingly, it can exist in different hydrated forms, affecting its solubility and interaction with other compounds.
pH Regulation: Due to its buffering capacity, it plays a significant role in maintaining pH levels in various chemical reactions, making it invaluable in laboratory settings.

In combination with phenylmercury(1+), this compound showcases the intriguing properties of organomercury compounds. Used primarily in agricultural applications, phenylmercury compounds are influential in fungicides and disinfectants.

Interesting Aspects of Phenylmercury(1+):

Toxicity Concerns: While effective, phenylmercury(1+) is also known for its toxicity and environmental persistence, leading to scrutiny and regulations on its use.
Biological Impact: The mercury ion in phenylmercury can accumulate in living organisms, posing risks that necessitate careful management during application.
Legacy in Chemistry: Despite its risks, this compound has paved the way for research into safer organomercury alternatives and has contributed to our understanding of organometallic chemistry.

In summary, the study of dihydrogen borate and phenylmercury(1+) exemplifies the intricate dance between usefulness and caution in the realm of chemical compounds. As scientists continue to explore their properties and applications, balancing efficacy with safety remains a crucial focus.

Synonyms

ZT1TTY3NGJ

PMB (VAN)

Dihydrogen (orthoborato(3-)-O)phenylmercurate(2-)