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Courses/Engineering/Chemical Engineering

Molecular Structure in Organic Atmospheric Chemistry

Influence on Reactions, Transformations, and Impacts of Organic Compounds.

Created byAIChE
BeginnerUpdated Feb 17, 2025
Molecular Structure in Organic Atmospheric Chemistry

What You'll Learn

check_circleExplain the role of organic compounds in atmospheric chemistry and their impacts.
check_circleDescribe the challenges of analyzing atmospheric organic compounds and isomers.
check_circleAnalyze the importance of molecular structure in atmospheric transformations.
check_circleDiscuss new methods for characterizing and quantifying molecular structures in the atmosphere.

About This Course

The atmosphere contains thousands or tens of thousands of different organic compounds in both the gas and particle-phase. These compounds, and the products formed through their atmospheric chemical reactions, contribute substantially to global mortality, diminish global agricultural output, and drive substantial but uncertain climate effects. Most of the reactive organic carbon in the atmosphere is emitted in the form of a small number of molecules and compound classes, which undergo sunlight-drive oxidation processes in the atmosphere to form the dynamic and complex mixture of compounds observed.

To tackle this analytical challenge, a wide range of measurement techniques and modeling frameworks have been developed that classify compounds by their physicochemical properties and/or their molecular formulas. Such approaches necessarily gloss over (or outright ignore) the structure of a molecule, despite the critical role structure can play in the transformations and impacts of a compounds. However, little work has examined the prevalence of compounds that differ only in their molecular structure (i.e., isomers), or the extent to which ignoring structure degrades understanding of the sources, transformations, and fates of organic compounds in the atmosphere.

This presentation will examine the prevalence of isomers in the atmosphere, where they come from, and the extent to which knowing their structures may improve understanding of their chemistry. New instrumental and analytical methods will be presented to better characterize the structures of compounds emitted as parts of complex mixtures and quantify the diversity of molecular structures in the atmosphere. The physicochemical properties of different isomers will be compared to quantitatively understand differences in their atmospheric transformations, and estimate the impacts of these differences on the fates of molecules. Finally, specific case studies will be explored in which the structures of reactive organic compounds in the atmosphere play a critical role in their impacts on atmospheric oxidation chemistry, aerosol formation, and ecological impacts.

Your Instructors

AIChE
AIChE

The Global Home of Chemical Engineers

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At every stage of your career, AIChE Academy is the definitive resource engineers use to sharpen their professional skills. We offer up-to-date courses and webinars in chemical engineering, process and hydrogen safety, bioengineering, sustainability, professional development, and many more.

Gabriel  Isaacman-VanWertz
Gabriel Isaacman-VanWertz

Assistant Professor at Virginia Tech

Department of Civil and Environmental Engineering at Virginia Tech Gabriel Isaacman-VanWertz is an Assistant Professor in the Department of Civil and Environmental Engineering at Virginia Tech. He completed his PhD at the University of California, Berkeley, after which he spent two years as an NSF Postdoctoral Fellow at MIT. He is originally from the East Coast, growing up in Maryland and completing his undergraduate at Wesleyan University in Connecticut. He currently lives in Blacskburg, VA with his wife and two young kids, where he spends his free time trying to keep the deer and groundhogs from eating everything in their garden.

Credit Information

Do these courses count toward my professional development requirements?

This portal is provided as a training and development resource for City of Markham employees. Every course is delivered by a qualified subject matter expert or learning organization, is quantifiable in hours, and is verifiable — you receive a documented certificate of completion for every course you finish, stored on LearnFormula indefinitely.

If you hold a professional designation (for example in engineering, accounting, human resources, or law), courses may be counted as professionally relevant, verifiable learning activities toward your continuing professional development. Individual practitioners are responsible for confirming that an activity meets the requirements of their professional body. For questions about the City of Markham's training and development policies, please speak with your people leader or Human Resources.

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