SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2015927429> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2015927429 endingPage "321" @default.
W2015927429 startingPage "309" @default.
W2015927429 abstract "A detailed description of an interactive relationship is made between water-soluble ionic components in PM2.5 and their precursor gases using the hourly resolution data measured at an urban monitoring site in Seoul during the year of 2010. Their diurnal variability was found to be correlated with their precursor gases (HNO3 and NH3). In the case of NO3− and NH4+, a close similarity was seen in their diurnal trends, especially during spring. There were no noticeable differences in the formation pathway of NO3−, SO42− , and NH4+ aerosols between day and night. For NO3− formation, heterogeneous hydrolysis of N2O5 might play a significant role in the nighttime enhancement of the oxidation rate. In addition, the concentrations of major anions (e.g. NO3−, SO42− , and Cl−) exhibited highly diverse seasonal patterns with their maximum values occurring in spring, summer, and winter, respectively. The overall results of this study suggest that the formation pathway of NO3− and SO42− aerosols should be regulated by a competing relationship between the NH3-lean (spring and winter) and NH3-rich conditions (summer and fall)." @default.
W2015927429 created "2016-06-24" @default.
W2015927429 creator A5006518486 @default.
W2015927429 creator A5022259689 @default.
W2015927429 creator A5026937595 @default.
W2015927429 creator A5074674201 @default.
W2015927429 creator A5077832834 @default.
W2015927429 creator A5089737429 @default.
W2015927429 date "2013-10-01" @default.
W2015927429 modified "2023-10-18" @default.
W2015927429 title "Analysis of water-soluble ions and their precursor gases over diurnal cycle" @default.
W2015927429 cites W1963977497 @default.
W2015927429 cites W1964518154 @default.
W2015927429 cites W1965345666 @default.
W2015927429 cites W1969162380 @default.
W2015927429 cites W1970605664 @default.
W2015927429 cites W1986362455 @default.
W2015927429 cites W1987079686 @default.
W2015927429 cites W1990470469 @default.
W2015927429 cites W1992172715 @default.
W2015927429 cites W1992552089 @default.
W2015927429 cites W1993949396 @default.
W2015927429 cites W1995912189 @default.
W2015927429 cites W1995936251 @default.
W2015927429 cites W1996107406 @default.
W2015927429 cites W2001028746 @default.
W2015927429 cites W2005451255 @default.
W2015927429 cites W2010381253 @default.
W2015927429 cites W2025772648 @default.
W2015927429 cites W2028546793 @default.
W2015927429 cites W2035527406 @default.
W2015927429 cites W2036725261 @default.
W2015927429 cites W2040771490 @default.
W2015927429 cites W2043807327 @default.
W2015927429 cites W2044523888 @default.
W2015927429 cites W2044536404 @default.
W2015927429 cites W2045258300 @default.
W2015927429 cites W2048080590 @default.
W2015927429 cites W2052369495 @default.
W2015927429 cites W2053225898 @default.
W2015927429 cites W2056668435 @default.
W2015927429 cites W2059584473 @default.
W2015927429 cites W2062275317 @default.
W2015927429 cites W2064225665 @default.
W2015927429 cites W2064890630 @default.
W2015927429 cites W2065967882 @default.
W2015927429 cites W2070713147 @default.
W2015927429 cites W2071578484 @default.
W2015927429 cites W2072354959 @default.
W2015927429 cites W2078754844 @default.
W2015927429 cites W2083261681 @default.
W2015927429 cites W2087394857 @default.
W2015927429 cites W2087422957 @default.
W2015927429 cites W2088049307 @default.
W2015927429 cites W2093904881 @default.
W2015927429 cites W2095221216 @default.
W2015927429 cites W2095398169 @default.
W2015927429 cites W2137694611 @default.
W2015927429 cites W2139226057 @default.
W2015927429 cites W2149521163 @default.
W2015927429 cites W2151055624 @default.
W2015927429 cites W2161780759 @default.
W2015927429 doi "https://doi.org/10.1016/j.atmosres.2013.06.003" @default.
W2015927429 hasPublicationYear "2013" @default.
W2015927429 type Work @default.
W2015927429 sameAs 2015927429 @default.
W2015927429 citedByCount "35" @default.
W2015927429 countsByYear W20159274292014 @default.
W2015927429 countsByYear W20159274292015 @default.
W2015927429 countsByYear W20159274292016 @default.
W2015927429 countsByYear W20159274292017 @default.
W2015927429 countsByYear W20159274292018 @default.
W2015927429 countsByYear W20159274292019 @default.
W2015927429 countsByYear W20159274292020 @default.
W2015927429 countsByYear W20159274292021 @default.
W2015927429 countsByYear W20159274292022 @default.
W2015927429 countsByYear W20159274292023 @default.
W2015927429 crossrefType "journal-article" @default.
W2015927429 hasAuthorship W2015927429A5006518486 @default.
W2015927429 hasAuthorship W2015927429A5022259689 @default.
W2015927429 hasAuthorship W2015927429A5026937595 @default.
W2015927429 hasAuthorship W2015927429A5074674201 @default.
W2015927429 hasAuthorship W2015927429A5077832834 @default.
W2015927429 hasAuthorship W2015927429A5089737429 @default.
W2015927429 hasConcept C121332964 @default.
W2015927429 hasConcept C127313418 @default.
W2015927429 hasConcept C127413603 @default.
W2015927429 hasConcept C145148216 @default.
W2015927429 hasConcept C153294291 @default.
W2015927429 hasConcept C167678106 @default.
W2015927429 hasConcept C178790620 @default.
W2015927429 hasConcept C185592680 @default.
W2015927429 hasConcept C2778712887 @default.
W2015927429 hasConcept C39432304 @default.
W2015927429 hasConcept C49204034 @default.
W2015927429 hasConcept C55493867 @default.
W2015927429 hasConcept C63991900 @default.
W2015927429 hasConcept C78519656 @default.