Interesting facts
Interesting Facts about 9-Nitroanthracene
9-Nitroanthracene is an intriguing organic compound that has garnered interest in both academic and industrial fields. Here are some fascinating aspects of this compound:
- Structure and Composition: 9-Nitroanthracene is a nitro derivative of anthracene, a polycyclic aromatic hydrocarbon. Its unique structure contributes to its chemical reactivity and photophysical properties.
- Photochemical Properties: This compound is known for its significant role in photochemistry. It can absorb light and may undergo various photochemical reactions, making it a topic of study in fields like organic solar cells and photonic materials.
- Applications in Research: 9-Nitroanthracene is often used as a probe in biochemical studies. The nitro group can influence biological pathways and is instrumental in the study of electron transfer processes.
- Environmental Considerations: As with many nitro compounds, 9-nitroanthracene's environmental persistence raises concerns. Its potential impact on aquatic systems and soil is an important area of environmental chemistry.
- Reactivity with Other Compounds: The presence of the nitro group can enhance the reactivity of 9-nitroanthracene, allowing it to participate in diverse synthetic reactions, including electrophilic aromatic substitution.
- Relation to Other Compounds: It is structurally and chemically related to other compounds in the anthracene family, making it an essential part of studies investigating the properties of aromatic hydrocarbons.
In summary, 9-nitroanthracene not only plays a crucial role in advanced chemical research but also poses intriguing questions regarding its safe handling and environmental impact. As a chemical scientist or student, understanding the behavior and applications of such compounds can lead to innovative solutions and significant advancements in the field.
Synonyms
9-NITROANTHRACENE
602-60-8
Anthracene, 9-nitro-
5-Nitroanthracene
CCRIS 4679
EINECS 210-021-9
JZ1TB3N57P
NSC 47175
DTXSID5025730
NSC-47175
NITROANTHRACENE, 9-
DTXCID805730
9-NITROANTHRACENE [IARC]
9-NITROANTHRACENE (IARC)
5Nitroanthracene
Anthracene, 9nitro
MS-NITROANTHRACENE
210-021-9
9-Nitro-anthracene
CHEBI:82501
NCGC00091602-02
UNII-JZ1TB3N57P
MFCD00001248
9-Nitroanthracene, 93%
SCHEMBL57759
MLS002454383
CHEMBL166112
9-NITROANTHRACENE (purity)
LSIKFJXEYJIZNB-UHFFFAOYSA-
HMS3039K17
NSC47175
Tox21_400025
STK044217
AKOS003595740
SB67031
NCGC00091602-01
NCGC00091602-03
AS-56867
CAS-602-60-8
SMR001372000
DB-022278
N0987
NS00034320
C19470
D86670
Q27156005
9-Nitroanthracene, BCR(R) certified Reference Material
9-Nitroanthracene, matrix substance for MALDI-MS, >=98.5% (HPLC)
InChI=1/C14H9NO2/c16-15(17)14-12-7-3-1-5-10(12)9-11-6-2-4-8-13(11)14/h1-9H
Solubility of 9-nitroanthracene
9-nitroanthracene, with the chemical formula C14H9NO2, exhibits interesting solubility characteristics that are significant for its applications. While its solubility can vary based on different conditions, key points include:
As noted in research, “the intermolecular forces, like π-π stacking and hydrophobic interactions, play a crucial role in the solubility of aromatic compounds like 9-nitroanthracene.” Therefore, the choice of solvent is critical when attempting to dissolve this compound in laboratory settings.
Understanding the solubility of 9-nitroanthracene not only affects its behavior in various chemical processes but also influences its potential applications in fields like organic electronics and photochemical studies.