K. Max Zhang scite author profile

[1] The formation of new atmospheric particles, roughly 1-2 nm in diameter, has drawn a lot of attention recently because of (1) their possibly negative effects on human health and (2) their potential to grow into cloud condensation nuclei, thus affecting cloud formation as well as the global radiation budget. At these small sizes, the Kelvin effect prevents condensation of any compound in sufficient abundance for producing substantial growth. But heterogeneous reactions may play a critical role in helping these nm-sized nuclei cross the huge Kelvin-effect barrier and facilitating further condensation of organic vapors. Its implications in the marine boundary layer and engine exhausts are discussed.

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Size distribution of sea-salt emissions as a function of relative humidity

Zhang

Knipping

Wexler

et al. 2005

Atmospheric Environment

111

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Evolution of particle number distribution near roadways. Part III: Traffic analysis and on-road size resolved particulate emission factors

Zhang

Wexler

Niemeier

et al. 2005

Atmospheric Environment

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Modeling the number distributions of urban and regional aerosols: theoretical foundations

Zhang

Wexler

2002

Atmospheric Environment

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An asynchronous time-stepping (ATS) integrator for atmospheric applications: Aerosol dynamics

Zhang

Wexler

2006

Atmospheric Environment

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K. Max Zhang

Evolution of particle number distribution near roadways—Part I: analysis of aerosol dynamics and its implications for engine emission measurement

A hypothesis for growth of fresh atmospheric nuclei

Size distribution of sea-salt emissions as a function of relative humidity

Evolution of particle number distribution near roadways. Part III: Traffic analysis and on-road size resolved particulate emission factors

Modeling the number distributions of urban and regional aerosols: theoretical foundations

An asynchronous time-stepping (ATS) integrator for atmospheric applications: Aerosol dynamics

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