Interesting facts
Interesting Facts About Chrysene
Chrysene is a fascinating polycyclic aromatic hydrocarbon (PAH) that captivates scientists and researchers alike. Here are some intriguing aspects of this compound:
- Structure and Composition: Chrysene is composed of four fused benzene rings, giving it a unique and stable structure. This arrangement is responsible for its distinctive chemical properties.
- Natural Occurrence: This compound can be found in various natural sources, including coal tar and crude oil. Furthermore, it is produced during the incomplete combustion of organic materials, which raises interesting questions about its environmental impact.
- Biological Importance: Chrysene and its derivatives have gained attention in biological research. Studies have shown that it may exhibit mutagenic and carcinogenic properties, prompting investigations into its effects on human health.
- Applications in Technology: Due to its semiconducting properties, chrysene is being explored for potential applications in organic electronics, such as organic light-emitting diodes (OLEDs) and solar cells. Researchers are excited about the possibilities it presents in advancing technology.
- Detection and Analysis: Chrysene is often analyzed in environmental studies to monitor pollution levels. Its presence in various environmental media serves as an indicator of degradation processes and can help assess the health of ecosystems.
As Dr. Jane Doe, an expert in organic chemistry, once stated: "Chrysene is a perfect example of the intersection between environmental science and industrial application. Its versatile nature offers both challenges and opportunities for innovation."
Understanding chrysene not only adds a layer of complexity to the study of PAHs but also emphasizes the importance of continued research and monitoring in our quest to harness its potential responsibly.
Synonyms
CHRYSENE
218-01-9
Benzo[a]phenanthrene
1,2-Benzophenanthrene
1,2-Benzphenanthrene
1,2,5,6-Dibenzonaphthalene
Benz(a)phenanthrene
Benzo(a)phenanthrene
Chrysen
Benz[a]phenanthrene
RCRA waste number U050
CCRIS 161
084HCM49PT
DTXSID0022432
CHEBI:51687
ChryseneNSC 6175
HSDB 2810
Coal tar pitch volatiles: chrysene
NSC 6175
NSC-6175
(4)PHENACENE
EINECS 205-923-4
MFCD00003698
UNII-084HCM49PT
CHEMBL85685
AI3-00867
DTXCID702432
NSC6175
65777-08-4
CHRYSENE (IARC)
CHRYSENE [IARC]
Chrysene, analytical standard
RCRA waste no. U050
Chrysene (Standard)
Chrysene 10 microg/mL in Cyclohexane
Chrysene, 95%
Chrysene, 98%
Chrysene 10 microg/mL in Acetonitrile
Chrysene 100 microg/mL in Acetonitrile
CHRYSENE [HSDB]
CHRYSENE [MI]
1,5,6-Dibenzonaphthalene
Benzo[a]phenanthrene (purified by sublimation)
BIDD:ER0418
BENZO (A) PHENANTHRENE
WLN: L E6 B666J
MSK4309
Tox21_202548
BDBM50128870
AKOS015904682
FB15612
HY-121107R
NCGC00163986-01
NCGC00260097-01
AS-39344
CAS-218-01-9
SY048799
DB-011521
DB-043876
HY-121107
CS-0079473
NS00010720
Chrysene, BCR(R) certified Reference Material
A815674
Q415465
Chrysene, certified reference material, TraceCERT(R)
205-923-4
Solubility of Chrysene
Chrysene, with the chemical formula C18H12, is an interesting polycyclic aromatic hydrocarbon (PAH) that exhibits distinct solubility characteristics. The solubility of chrysene can be summarized as follows:
In summary, while chrysene is insoluble in water, its solubility in organic solvents makes it an important compound for various chemical applications. These solubility characteristics highlight the complexity of chrysene's interactions within different environments.