Atmospheric chemistry is a complex and vital field, constantly seeking to understand the intricate processes that shape our planet's air quality. Among the many compounds studied, certain oxidation products of volatile organic compounds (VOCs) play a significant role. One such compound is cis-Pinonic Acid (CAS 473-72-3), a molecule that has garnered attention for its formation and subsequent impact on atmospheric processes.

cis-Pinonic Acid is primarily known as a low-volatility species that forms when α-pinene, a common terpene found in many plants, undergoes oxidation reactions in the atmosphere. These reactions can be initiated by ozone, hydroxyl radicals (OH), or nitrate radicals (NO3). The formation of cis-Pinonic Acid is a key step in the atmospheric degradation of α-pinene, leading to the creation of secondary organic aerosols (SOAs). Understanding the kinetics and pathways of these reactions is crucial for accurate atmospheric modeling and predicting air quality.

The low volatility of cis-Pinonic Acid means it readily partitions into the particulate phase, contributing to the overall mass and chemical composition of atmospheric aerosols. These aerosols can influence climate by scattering or absorbing solar radiation, and also have implications for human health. Researchers often require high-purity samples of cis-Pinonic Acid to conduct experiments related to its formation, chemical transformations, and its role in SOA development. As a result, sourcing reliable chemical intermediates like cis-Pinonic Acid is essential for advancing atmospheric science.

For scientists and researchers involved in atmospheric chemistry, securing a consistent and high-quality supply of cis-Pinonic Acid is paramount. Manufacturers specializing in fine chemicals, particularly those in China, are increasingly offering this compound. When looking to buy cis-Pinonic Acid, it's important to consider the CAS number (473-72-3) to ensure you are obtaining the correct isomer. A reputable cis-Pinonic Acid supplier will provide detailed product specifications, including purity levels and physical properties such as its solid form and melting point (typically 104-107°C). Enquiring about the manufacturer's capabilities and their price for bulk quantities can help optimize research budgets.

The availability of cis-Pinonic Acid as a research chemical facilitates critical studies into its atmospheric behavior. Its contribution to secondary organic aerosol formation highlights the interconnectedness of terrestrial plant emissions and atmospheric chemistry. By understanding the life cycle of such compounds, scientists can better predict the impact of VOCs on air quality and climate change. If your research requires this specific chemical intermediate, reaching out to leading suppliers for a quote or to purchase cis-Pinonic Acid is the first step towards groundbreaking discoveries.