Aerosol, Chemical transport model, Meteorology, Isoprene and Atmospheric sciences are his primary areas of study. His Aerosol research is multidisciplinary, incorporating perspectives in Climate change, Applied mathematics, Environmental chemistry, Nitrate and Data assimilation. His study looks at the relationship between Nitrate and topics such as Sulfate, which overlap with Air quality index and Global warming.
His Chemical transport model study is associated with Troposphere. His Meteorology research focuses on Satellite and how it relates to Air pollution, Data science and Key. He incorporates Atmospheric sciences and Far East in his research.
Daven K. Henze spends much of his time researching Atmospheric sciences, Air quality index, Aerosol, Chemical transport model and Meteorology. Daven K. Henze has included themes like Inversion, NOx, Ozone and Pollution in his Atmospheric sciences study. His Air quality index research is multidisciplinary, relying on both Air pollution, Fine particulate, Climate change and Pollutant.
His Aerosol research is multidisciplinary, incorporating elements of Environmental chemistry, Sulfate, Nitrate and Data assimilation. He is involved in the study of Chemical transport model that focuses on Geos chem in particular. Remote sensing and Atmosphere is closely connected to Satellite in his research, which is encompassed under the umbrella topic of Troposphere.
His primary areas of study are Atmospheric sciences, Air quality index, Air pollution, Ozone and NOx. His research in the fields of Chemical transport model and Troposphere overlaps with other disciplines such as East Asia. His studies in Air quality index integrate themes in fields like Pollutant, Pollution and Aerosol.
His research on Aerosol often connects related topics like Sulfate. His Air pollution study incorporates themes from Natural resource economics and Climate change. As a part of the same scientific study, Daven K. Henze usually deals with the NOx, concentrating on Tropospheric ozone and frequently concerns with Radiative forcing.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Global budgets of atmospheric glyoxal and methylglyoxal, and implications for formation of secondary organic aerosols
Tzung-May Fu;Tzung-May Fu;Daniel J. Jacob;Folkard Wittrock;John P. Burrows.
Journal of Geophysical Research (2008)
Impacts and mitigation of excess diesel-related NOx emissions in 11 major vehicle markets
Susan C. Anenberg;Joshua Miller;Ray Minjares;Li Du.
Global secondary organic aerosol from isoprene oxidation
Daven K. Henze;John H. Seinfeld.
Geophysical Research Letters (2006)
Development of the adjoint of GEOS-Chem
D. K. Henze;Amir Hakami;J. H. Seinfeld.
Atmospheric Chemistry and Physics (2006)
Global modeling of secondary organic aerosol formation from aromatic hydrocarbons: high- vs. low-yield pathways
D. K. Henze;D. K. Henze;J. H. Seinfeld;N. L. Ng;J. H. Kroll.
Atmospheric Chemistry and Physics (2008)
Effect of changes in climate and emissions on future sulfate-nitrate-ammonium aerosol levels in the United States
H.O.T. Pye;H. Liao;S. Wu;S. Wu;Loretta J. Mickley.
Journal of Geophysical Research (2009)
Predicted change in global secondary organic aerosol concentrations in response to future climate, emissions, and land use change
C. L. Heald;C. L. Heald;D. K. Henze;L. W. Horowitz;Johannes J. Feddema.
Journal of Geophysical Research (2008)
Emissions estimation from satellite retrievals: A review of current capability
David G. Streets;Timothy Canty;Gregory R. Carmichael;Benjamin de Foy.
Atmospheric Environment (2013)
Ammonia Emissions in the United States, European Union, and China Derived by High-Resolution Inversion of Ammonium Wet Deposition Data: Interpretation with a New Agricultural Emissions Inventory (MASAGE_NH3)
F. Paulot;Daniel James Jacob;R. W. Pinder;J. O. Bash.
Journal of Geophysical Research (2014)
Global Estimates of CO Sources with High Resolution by Adjoint Inversion of Multiple Satellite Datasets (MOPITT, AIRS, SCIAMACHY, TES)
M. Kopacz;M. Kopacz;Daniel J. Jacob;John Fisher;Jennifer A. Logan.
Atmospheric Chemistry and Physics (2010)
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