Sub-3nm Aerosol Particles With Climatic Implications Form Frequently In Urban Locations: Study

Hyderabad, June 14 : Researchers at the University of Hyderabad (UoH) have found frequent formation of sub-3nm neutral aerosols in the atmosphere over urban locations.

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The findings are of critical importance as a major fraction of these newly formed particles can reach sizes of cloud condensation nuclei, where they have climatic impacts.

Vijay Kanawade and Mathew Sebastian from the UoH measured neutral sub-3nm particle concentrations in Hyderabad, and reported the formation rate of small molecular clusters, for the first time, in sub-3nm size regime, where aerosol nucleation triggers.

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Aerosols are tiny solid or liquid particles suspended in the atmosphere.

The studies have also established a strong positive correlation between sub-3nm particle concentrations and sulphuric acid concentrations, confirming the potential role of sulfuric acid in the formation of sub-3nm particles which can grow to sizes that affect the climate.

The formation of small molecular clusters of sub-3nm particles and their subsequent growth to large sizes is called atmospheric new particle formation (NPF).

NPF occurs everywhere in the terrestrial troposphere, and therefore it is a large source of aerosol numbers to the atmosphere.

While NPF often starts with sulphuric acid in the atmosphere, sulphuric acid alone fails to explain observed particle formation and growth rates in the atmosphere.

Other vapours such as ammonia, amines and organics play a crucial role in the growth of newly formed particles.

Moreover, these newly formed particles did not always grow to large sizes, and the team hypothesised that the particle growth was limited by lower concentrations of condensable vapours such as organic compounds, calling for research using state-of-the-art instrumentation to understand the mechanisms driving NPF in diverse environments across India.

The researchers used AIRMODUS nano Condensation Nucleus Counter (nCNC) to measure particle size distribution in the size range of 1 to 3 nm diameter since January 2019 at the University of Hyderabad campus site.

Jeff Pierce from the Colorado State University in the US was also part of this study.

Their findings published in the journal ‘Atmospheric Environment’ showed that a pool of sub-3nm particles is often present in the atmosphere, but how fast these clusters grow depends on various factors

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