W.P.L. Carter scite author profile

This perspective gives our views on general aspects and future directions of gasphase atmospheric chemical kinetic mechanism development, emphasizing on the work needed for the sustainable development of chemically detailed mechanisms that reflect current kinetic, mechanistic, and theoretical knowledge. Current and future mechanism development efforts and research needs are discussed, including software-aided autogeneration and maintenance of kinetic models as a future-proof approach for atmospheric model development. There is an overarching need for the evaluation and extension of structure-activity relationships (SARs) that predict the properties and reactions of the many multifunctionalized compounds in the atmosphere that are at the core of detailed mechanisms, but for which no direct chemical data are available. Here, we discuss the experimental and theoretical data needed to support the development of mechanisms and SARs, the types of SARs relevant to atmospheric chemistry, the current status and limitations of SARs for various types of atmospheric reactions, the status of thermochemical estimates needed for mechanism development, and our outlook for the future. The authors have recently formed a SAR evaluation working group to address these issues. C

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Interpreting predictions from the SAPRC07 mechanism based on regional and continental simulations

Hutzell

Luecken

Appel

et al. 2012

Atmospheric Environment

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Reactivity estimates for aromatic compounds. Part 1. Uncertainty in chamber-derived parameters

Wang

Milford

Carter

2000

Atmospheric Environment

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The effect of latitude on the potential for formation of photochemical smog

Nieboer

Carter

Lloyd

et al. 1976

Atmospheric Environment (1967)

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W.P.L. Carter

Perspective on Mechanism Development and Structure‐Activity Relationships for Gas‐Phase Atmospheric Chemistry

Interpreting predictions from the SAPRC07 mechanism based on regional and continental simulations

Reactivity estimates for aromatic compounds. Part 1. Uncertainty in chamber-derived parameters

The effect of latitude on the potential for formation of photochemical smog

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