Indoor Surface Chemistry: Developing a Molecular Picture of Reactions on Indoor Interfaces

Date Published
12/2020
Publication Type
Journal Article
Authors
DOI
https://doi.org/10.1016/j.chempr.2020.08.023
Abstract

Chemical reactions on indoor surfaces play an important role in air quality in indoor environments, where humans spend 90% of their time. We focus on the challenges of understanding the complex chemistry that takes place on indoor surfaces and identify crucial steps necessary to gain a molecular-level understanding of environmental indoor surface chemistry: (1) elucidate key surface reaction mechanisms and kinetics important to indoor air chemistry, (2) define a range of relevant and representative surfaces to probe, and (3) define the drivers of surface reactivity, particularly with respect to the surface composition, light, and temperature. Within the drivers of surface composition are the roles of adsorbed/absorbed water associated with indoor surfaces and the prevalence, inhomogeneity, and properties of secondary organic films that can impact surface reactivity. By combining laboratory studies, field measurements, and modeling we can gain insights into the molecular processes necessary to further our understanding of the indoor environment.

Journal
Chem
Volume
6
Year of Publication
2020
Issue
12
URL
Refereed Designation
Does Not Apply
Keywords
Organizations
Research Areas
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