Interesting facts
Interesting Facts about Benzo[b]triphenylene
Benzo[b]triphenylene is a fascinating polycyclic aromatic hydrocarbon (PAH) that captures the interest of many scientists and chemistry students alike. This compound is renowned for its intricate structure, consisting of five fused aromatic rings, which contributes to its unique properties. Here are some intriguing aspects of benzo[b]triphenylene:
- Structure and Stability: The stability of benzo[b]triphenylene arises from its planar structure and extensive π-conjugation, allowing for delocalization of electrons across the system. This results in remarkable chemical stability.
- Fluorescence: Benzo[b]triphenylene exhibits strong fluorescence, making it a candidate for various applications in optoelectronic devices, such as organic light-emitting diodes (OLEDs) and solar cells. Its luminescent properties are due to the unique arrangement of carbon atoms in the molecule.
- Applications in Nanotechnology: Scientists are exploring the use of benzo[b]triphenylene in nanotechnology. Its ability to form organized structures at the nanoscale could lead to advancements in drug delivery systems and the creation of nanoscale materials.
- Environmental Concerns: As a member of the PAH family, benzo[b]triphenylene has raised environmental concerns due to its potential toxicity. Studies indicate that some PAHs, including this compound, can be hazardous to human health and ecosystems, necessitating careful monitoring.
- Research Potential: Ongoing research is being conducted to further understand the properties and behavioral impact of benzo[b]triphenylene. Its role in constructing advanced materials and studying interfacial phenomena is of particular interest in modern chemistry.
Overall, benzo[b]triphenylene is not just a compound of theoretical interest but also a substance that holds practical implications across various scientific disciplines. As a chemistry student, delving into the study of this compound opens up avenues for understanding complex molecular interactions and material science.
Synonyms
benzo[f]tetraphene
215-58-7
Dibenz[a,c]anthracene
Benzo[b]triphenylene
Benzotriphenylene
1,2:3,4-Dibenzanthracene
Dibenz(a,c)anthracene
Dibenzo[a,c]anthracene
2,3-Benzotriphenylene
Dibenzo(a,c)anthracene
1,2,3,4-DIBENZANTHRACENE
Benzo(b)triphenylene
Dibenzanthracene
1,2:3,4-Dibenzoanthracene
6OC62KCV5A
CCRIS 934
2,3-Benztriphenylene
DTXSID9049245
EINECS 205-920-8
BRN 1912415
DTXCID8029101
CHEBI:82437
DIBENZ(A,C)ANTHRACENE [IARC]
Dibenzo[a,c]anthracene-13C6
DIBENZ(A,C)ANTHRACENE (IARC)
414-29-9
67775-07-9
MFCD00003603
2,3Benzotriphenylene
Db(a,c)A
1,2:3,4Dibenzanthracene
UNII-6OC62KCV5A
1,2:3,4Dibenzoanthracene
Dibenz[a,c]anthracene, 97%
CHEMBL166266
Dibenzo[a pound notc]anthracene
Tox21_202967
AKOS015905974
CS-W012293
FD66038
NCGC00260513-01
AS-81509
CAS-215-58-7
Benzo[b]Triphenylene;Dibenz[a,c]anthracene
DB-045619
NS00041762
C19388
Q27155939
pentacyclo[12.8.0.0(2),?.0?,(1)(3).0(1)?,(2)(1)]docosa-1(14),2(7),3,5,8(13),9,11,15,17,19,21-undecaene
Solubility of Benzo[b]triphenylene
Benzo[b]triphenylene, with the chemical formula C18H12, exhibits intriguing solubility characteristics. This compound is predominantly known for its application in organic electronics and materials science, and its solubility can vary significantly based on the solvent used.
Solubility Characteristics:
It's essential to note that when considering applications, the choice of solvent is crucial. As stated, "the solubility of aromatic compounds often dictates their utility in various chemical processes." Understanding the solubility properties of benzo[b]triphenylene enables scientists and engineers to optimize its use in novel applications.