Interesting facts
Interesting Facts About Tribromoborane
Tribromoborane, also known as BBr3, is a fascinating chemical compound that showcases the unique characteristics of boron and its halides. Here are some remarkable aspects of this compound:
- Structure and Bonding: Tribromoborane features a trigonal planar structure, typical of boron compounds, where the central boron atom is bonded to three bromine atoms. This geometry makes it a highly reactive species in various chemical reactions.
- Reactivity: BBr3 is known for its strong electrophilic nature. It readily participates in addition reactions and can act as a Lewis acid due to the empty p-orbital of the boron atom. This property allows it to coordinate with nucleophiles in organic synthesis.
- Applications: This compound is utilized in the synthesis of organoboron compounds, which are important in various fields such as pharmaceuticals and agrochemicals. Its ability to facilitate the formation of carbon-boron bonds is particularly valuable in organic chemistry.
- Caution Required: Handling tribromoborane requires care due to its reactivity and potential hazards. It is advisable to work with it in a well-ventilated fume hood and to use appropriate personal protective equipment.
- Preparation: BBr3 can be synthesized through the reaction of boron trioxide (B2O3) with hydrogen bromide (HBr). Understanding the synthesis process is crucial for applications in laboratory settings.
In conclusion, tribromoborane represents a unique intersection of boron chemistry and reactivity, making it an important subject for those studying chemical compounds. The study of compounds like BBr3 continues to yield insights, fostering innovation in synthetic methodologies.
Synonyms
BORON TRIBROMIDE
Tribromoborane
10294-33-4
Borane, tribromo-
Boron bromide
Tribromoboron
Boron bromide (BBr3)
HSDB 327
EINECS 233-657-9
UN2692
boron(III) bromide
A453DV9339
BORON TRIBROMIDE [MI]
BORON TRIBROMIDE [HSDB]
DTXSID4065028
Borane, tribromo
Boron tribromide solution
Boron tribromide (ACGIH)
DTXCID9032747
233-657-9
Borontribromide
BBr3
MFCD00011312
Boron Tribromide (17% in Dichloromethane, ca. 1mol/L)
tribromoboran
boron tribrornide
UNII-A453DV9339
boron tri bromide
Boron tri-bromide
boron(III)bromide
SCHEMBL108
Boron bromide, elec. gr.
Boron tribromide, >=99.99%
ILAHWRKJUDSMFH-UHFFFAOYSA-
InChI=1/BBr3/c2-1(3)4
BR1272
SBB080575
AKOS005111102
AS-88688
Boron tribromide [UN2692] [Corrosive]
Boron tribromide, ReagentPlus(R), >=99%
Boron tribromide, ReagentPlus(R), 99.9%
B2553
Q415804
Solubility of Tribromoborane (BBr3)
Tribromoborane, with the chemical formula BBr3, exhibits notable solubility characteristics that are worth discussing. As a molecular compound, it primarily interacts with solvents based on polarity and molecular structure.
Solubility Characteristics:
When discussing solubility, it's important to consider factors such as temperature, pressure, and the specific nature of the solvent. As the saying goes, "like dissolves like", meaning that compounds with similar polarity will have a higher likelihood of dissolving in each other. Thus, the behavior of tribromoborane reflects this principle, impacting its utility in chemical applications.
Furthermore, care must be taken when handling tribromoborane, as its solubility can lead to rapid reactions with various substrates, making the understanding of its solubility essential in the realm of synthetic chemistry.