Atomfair Coronene C24H12

Description Coronene (CAS No. 191-07-1) is a highly symmetric polycyclic aromatic hydrocarbon (PAH) with the molecular formula C24H12. Known for its unique ‘superbenzene’ structure, coronene consists of six fused benzene rings arranged in a perfect hexagonal pattern, making it an exemplary model for studying aromaticity and electron delocalization in organic chemistry. This crystalline solid exhibits strong fluorescence and is widely utilized in materials science due to its exceptional electronic properties. With a purity grade suitable for advanced research, our Coronene is rigorously tested to meet the highest standards, ensuring reliable performance in optical, electronic, and spectroscopic applications. Ideal for researchers…

Description

Coronene (CAS No. 191-07-1) is a highly symmetric polycyclic aromatic hydrocarbon (PAH) with the molecular formula C₂₄H₁₂. Known for its unique ‘superbenzene’ structure, coronene consists of six fused benzene rings arranged in a perfect hexagonal pattern, making it an exemplary model for studying aromaticity and electron delocalization in organic chemistry. This crystalline solid exhibits strong fluorescence and is widely utilized in materials science due to its exceptional electronic properties. With a purity grade suitable for advanced research, our Coronene is rigorously tested to meet the highest standards, ensuring reliable performance in optical, electronic, and spectroscopic applications. Ideal for researchers investigating graphene analogs, organic semiconductors, or carbon-based nanomaterials.

CAS No: 191-07-1
Molecular Formula: C24H12
Molecular Weight: 300.4
Exact Mass: 300.093900383
Monoisotopic Mass: 300.093900383
IUPAC Name: coronene
SMILES: C1=CC2=C3C4=C1C=CC5=C4C6=C(C=C5)C=CC7=C6C3=C(C=C2)C=C7
Synonyms: CORONENE, 191-07-1, Hexabenzobenzene, superbenzene, Dibenzo(ghi,pqr)perylene

Application

Coronene is extensively used as a model compound for studying aromaticity and ??-electron systems in theoretical and experimental chemistry. Its planar, symmetric structure makes it valuable in the development of organic semiconductors and optoelectronic devices. Researchers also employ coronene as a precursor for synthesizing graphene-like materials and carbon nanostructures. Additionally, its fluorescent properties are leveraged in photophysical studies and sensor applications.

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