Chrysene, Octadecahydro-: Synthesis, Properties, and Applications in Fine Chemicals
Exploring the complex world of saturated polycyclic hydrocarbons, from synthesis to advanced characterization and potential industrial uses.
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Chrysene, Octadecahydro-
Chrysene, octadecahydro- (CAS 2090-14-4) is a saturated polycyclic hydrocarbon with a complex fused ring structure. Its synthesis primarily involves the catalytic hydrogenation of chrysene, where careful control over catalysts and reaction conditions is crucial for optimizing yield and purity. Advanced spectroscopic techniques, including NMR, IR, and GC-MS, are essential for its precise characterization and the differentiation of its numerous stereoisomers. The molecule's conformational analysis and interactions with biological systems can be effectively studied using computational chemistry methods.
- Explore the synthesis of octadecahydrochrysene via catalytic hydrogenation of chrysene, understanding how different catalysts and conditions impact the final product.
- Delve into the spectroscopic characterization of octadecahydrochrysene, utilizing techniques like NMR for detailed stereoisomer analysis.
- Understand the use of GC-MS identification of polycyclic hydrocarbons for quality control and impurity profiling in chemical synthesis.
- Learn about computational chemistry of alicyclic systems and molecular dynamics of hydrocarbons to predict behavior and properties.
Advantages You Gain
Precise Characterization
Leverage advanced spectroscopic methods for accurate identification and differentiation of stereoisomers, aiding in reliable quality control in chemical synthesis.
Synthesis Optimization
Benefit from insights into optimizing hydrocarbon synthesis, ensuring high yields and purity through informed choices of catalysts and reaction parameters.
Predictive Power
Utilize computational chemistry of alicyclic systems to predict molecular properties and behavior, supporting the development of new materials and processes.
Key Applications
Cosmetics
The unique chemical structure and properties of saturated polycyclic hydrocarbons like Chrysene, octadecahydro- make them interesting for specialized cosmetic formulations.
Pharmaceutical Intermediates
As a fine chemical, it can serve as a building block or intermediate in the synthesis of more complex pharmaceutical compounds.
Chemical Industry
Its role extends to the broader chemical industry, potentially used in materials science or as a research chemical for various applications.
Research & Development
A valuable compound for R&D, facilitating studies in hydrocarbon chemistry, reaction kinetics, and the development of novel analytical techniques.