Anthony C. Tridico scite author profile

Abstract. Sea salt particles are constantly produced from ocean surfaces by wave-wind interactions and removed by deposition and precipitation scavenging. These particles constitute the background aerosol for light scattering in the marine boundary layer. In this work, the thermodynamic and optical properties of sea salt aerosol particles generated from seawater samples are measured at 25øC as a function of relative humidity, using a single-particle levitation technique. Water activities, densities, and refractive indices of aqueous solution droplets containing a single salt NaCI, Na2SO 4, MgCI 2, or MgSO 4 are also reported as a function of concentration. The light-scattering properties of the sea salt aerosol are modeled by the external mixture of these four salt systems selected to approximate the sea salt composition. Good agreements are obtained. It follows that in either visibility reduction or radiative forcing calculations, both freshly produced and aged sea salt aerosols may be modeled by external mixtures of the appropriate inorganic salts, whose solution properties are now available in the literature.

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Phase transformations in sulfuric acid aerosols: Implications for stratospheric ozone depletion

Imre

Tridico

1997

Geophysical Research Letters

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The USPTO strikes back: proposed fundamental changes to the US patent system

Diner¹,

Tridico²,

Stolpa³

et al. 2007

Journal of Intellectual Property Law & Practice

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Protecting Personalized Medicine Inventions

Tridico¹,

Atkinson²

2013

Genetic Engineering & Biotechnology News

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