Trifluoroiron | Solubility of Things

Identification

Molecular formula

FeF₃

CAS number

7783-50-8

IUPAC name

trifluoroiron

State

At room temperature, trifluoroiron is typically in a gaseous state. It can be liquefied by cooling or under pressure.

Melting point (Celsius)

-121.00

Melting point (Kelvin)

152.15

Boiling point (Celsius)

-95.00

Boiling point (Kelvin)

178.15

General information

Molecular weight

112.84g/mol

Molar mass

112.8380g/mol

Density

3.3700g/cm³

Appearence

Trifluoroiron is typically encountered as a colorless or very pale yellow gas. It can condense to form a pale yellow liquid under pressure. The compound is known for its high volatility and corrosive nature.

Comment on solubility

Solubility of Trifluoroiron

Trifluoroiron, with the chemical formula FeF₃, exhibits notable characteristics regarding its solubility:

Solubility in Water: Trifluoroiron is generally insoluble in water. The strong ionic bonds between iron and fluoride ions result in a stable solid structure that does not readily dissolve.
Solubility in Organic Solvents: Similar to many metal fluorides, trifluoroiron shows limited solubility in most organic solvents. Therefore, it may require specific conditions to interact with certain organic mediums.
Applications: Its insolubility in water can be advantageous in various applications, as it remains stable and does not contaminate aqueous solutions.

In summary, the solubility of trifluoroiron is predominantly characterized by its resistance to dissolution in both water and organic solvents. As with many compounds of this nature, understanding its solubility properties is crucial for its practical applications.

Interesting facts

Interesting Facts About Trifluoroiron

Trifluoroiron is a fascinating chemical compound that has garnered interest in various fields of chemistry due to its unique properties and potential applications. Here are some interesting facts about this intriguing compound:

Composition: Trifluoroiron consists of iron in combination with three fluorine atoms. This unique combination makes it a powerful fluorinating agent.
Reactivity: The presence of fluorine significantly enhances the reactivity of iron. Trifluoroiron can participate in a variety of reactions, making it useful in synthetic organic chemistry.
Industrial Applications: Due to its strong oxidizing potential, trifluoroiron is explored in various chemical syntheses, especially in the production of fluorinated compounds, which have applications in pharmaceuticals and agrochemicals.
Fluorine's Role: Fluorine is known for its electronegativity and reactivity; thus, compounds like trifluoroiron can lead to interesting organic transformations that are not achievable with other halogens.
Coordination Chemistry: This compound can also be studied within the realm of coordination chemistry. It can form complexes with ligands, paving the way for new studies in metal-organic frameworks and catalysis.
Safety Considerations: While working with trifluoroiron, it is essential to understand the precautions necessary due to the high reactivity of fluorine, which can lead to hazardous interactions with organic materials.

In the words of chemists, "Fluorine adds flavor to compounds," and trifluoroiron is a prime example of how integrating fluorine into a metal can yield exciting chemical behavior and opportunities.

This compound stands at the intersection of research and application, proving that the realms of inorganic chemistry and material science are full of surprises waiting to be explored!

Synonyms

FERRIC FLUORIDE

Iron(III) fluoride

Iron fluoride

Ferric trifluoride

HSDB 450

EINECS 232-002-4

DTXSID1064823

UNII-0309P36Q66

0309P36Q66

Ferrum Fluoratum

FERRIC FLUORIDE (FEF3)

DTXCID3048025

232-002-4

trifluoroiron

FeF3

iron(3+) trifluoride

Iron(III) fluoride, anhydrous, 97% min

Iron trifluoride

Iron Fluoride Micro Powder

Iron(III) fluoride, anhydrous, 99+%

NS00080660

Q419700