This page contains public data for the peer-reviewed publication:
Nihill, K. J.; Ye, Q.; Majluf, F.; Krechmer, J. E.; Canagaratna, M. R.; Kroll, J. H. Influence of the NO/NO2 Ratio on Oxidation Product Distributions under High-NO Conditions, Env. Sci. & Tech., 2021. Link to Paper pdf SI
These data files are intended as additional supplementary information for this publication. If you would like to use any data herein in a publication, please contact Kevin Nihill ([email protected]) and Jesse Kroll ([email protected]) first.
Dataset 1: gas-phase chamber data
Analyzed time-series data from the Vocus-PTR for the photolysis of n-butyl and n-pentyl nitrite under "higher-NO" and "lower-NO" conditions. All data is corrected for dilution and given in units of carbon-weighted parts-per-billion (ppbC); species are reported with the ion detected by the Vocus and the corresponding m/z. Time wave is oxidation time (minutes since lights were turned on, initiating photolysis).
Data File: n-butyl nitrite, higher-NO
Data File: n-butyl nitrite, lower-NO
Data File: n-pentyl nitrite, higher-NO
Data File: n-pentyl nitrite, lower-NO
Dataset 2: particle-phase chamber data
Analyzed data from the aerosol mass spectrometer (AMS) for each of the four precursors under "higher-NO" and "lower-NO" conditions. Data is reported as total organic signal normalized to sulfate, which corrects for dilution, wall-loss, and collection efficiency. Average oxidation state (OSc) is also provided. Time wave is oxidation time (minutes since lights were turned on, initiating photolysis).
Data File: All SOA data
Dataset 3: gas-phase simulation data from MCM
Analogous data to Dataset 1, but generated by the Master Chemical Mechanism (MCM).
If you have any more questions, please contact the corresponding authors, Kevin Nihill at [email protected] and Jesse Kroll at [email protected].
Data File: n-butyl nitrite, higher-NO (MCM)
Data File: n-butyl nitrite, lower-NO (MCM)
Data File: n-pentyl nitrite, higher-NO (MCM)
Data File: n-pentyl nitrite, lower-NO (MCM)
Data from Figures: