E
Ellis S. Robinson
Researcher at Carnegie Mellon University
Publications - 33
Citations - 1928
Ellis S. Robinson is an academic researcher from Carnegie Mellon University. The author has contributed to research in topics: Aerosol & Particulates. The author has an hindex of 18, co-authored 31 publications receiving 1417 citations. Previous affiliations of Ellis S. Robinson include Cooperative Institute for Research in Environmental Sciences & Earth System Research Laboratory.
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Journal ArticleDOI
Brownness of organics in aerosols from biomass burning linked to their black carbon content
Rawad Saleh,Ellis S. Robinson,Daniel S. Tkacik,Adam T. Ahern,Shang Liu,Allison C. Aiken,Ryan C. Sullivan,Albert A. Presto,Manvendra K. Dubey,Robert J. Yokelson,Neil M. Donahue,Allen L. Robinson +11 more
TL;DR: In this article, the absorption properties of brown carbon aerosols from biomass burning are linked to their black carbon content, and they showed that the absorption property of aerosols can exert an important influence on Earth's climate.
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A machine learning calibration model using random forests to improve sensor performance for lower-cost air quality monitoring
Naomi Zimmerman,Albert A. Presto,Sriniwasa P. N. Kumar,Jason Gu,Aliaksei Hauryliuk,Ellis S. Robinson,Allen L. Robinson,R. Subramanian +7 more
TL;DR: In this paper, the Real-time Affordable Multi-Pollutant (RAMP) sensor package is used to measure CO, NO2, O3, and CO2.
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Absorptivity of brown carbon in fresh and photo-chemically aged biomass-burning emissions
Rawad Saleh,Christopher J. Hennigan,Gavin R. McMeeking,Wayne Chuang,Ellis S. Robinson,Hugh Coe,Neil M. Donahue,Allen L. Robinson +7 more
TL;DR: In this paper, the authors investigated light absorption of organic aerosol (OA) in fresh and photo-chemically aged biomass-burning emissions and found that SOA is less absorptive than POA in the long visible, but exhibits stronger wavelength-dependence and is more absorptive in the short visible and near-UV.
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Mixing of secondary organic aerosols versus relative humidity
TL;DR: This work performs unique mixing experiments between SOA populations including semivolatile constituents using quantitative, single-particle mass spectrometry to probe any mass-transfer limitations in particles containing SOA, and concludes that diffusion limitations are likely not common under typical ambient boundary layer conditions.
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Vapor wall loss of semi-volatile organic compounds in a Teflon chamber
TL;DR: In this article, the authors investigated the vapor wall loss of seven semi-volatile organic compounds (SVOCs) in a Teflon smog chamber, using ammonium sulfate (AS) seeds to constrain the particle wall loss.