SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2088687213> ?p ?o ?g. }

Showing items 1 to 100 of ±169 with 100 items per page.

W2088687213 endingPage "379" @default.
W2088687213 startingPage "361" @default.
W2088687213 abstract "Secondary organic carbon (SOC) formation and its effects on human health require better understanding in Chinese megacities characterized by a severe particulate pollution and robust economic reform. This study investigated organic carbon (OC) and elemental carbon (EC) in PM2.5 and PM0.25 collected 8–20 March 2012. Samples were collected inside and outside a classroom in a middle school at Xi’an. On average, OC and EC accounted for 20%–30% of the particulate matter (PM) mass concentration. By applying the EC-tracer method, SOC’s contribution to OC in both PM size fractions was demonstrated. The observed changes in SOC:OC ratios can be attributed to variations in the primary production processes, the photochemical reactions, the intensity of free radicals, and the meteorological conditions. Total carbon (TC) source apportionment by formula derivation showed that coal combustion, motor vehicle exhaust, and secondary formation were the major sources of carbonaceous aerosol. Coal combustion appeared to be the largest contributor to TC (50%), followed by motor vehicle exhaust (25%) and SOC (18%) in both size fractions." @default.
W2088687213 created "2016-06-24" @default.
W2088687213 creator A5000320455 @default.
W2088687213 creator A5000457151 @default.
W2088687213 creator A5024706119 @default.
W2088687213 creator A5044159048 @default.
W2088687213 creator A5049315273 @default.
W2088687213 creator A5067971967 @default.
W2088687213 creator A5076746128 @default.
W2088687213 creator A5090750719 @default.
W2088687213 date "2015-03-17" @default.
W2088687213 modified "2023-10-18" @default.
W2088687213 title "Characteristics of Organic and Elemental Carbon in PM2.5 and PM0.25 in Indoor and Outdoor Environments of a Middle School: Secondary Formation of Organic Carbon and Sources Identification" @default.
W2088687213 cites W1563813466 @default.
W2088687213 cites W1883957554 @default.
W2088687213 cites W1982056270 @default.
W2088687213 cites W1986757612 @default.
W2088687213 cites W1988469779 @default.
W2088687213 cites W1989897866 @default.
W2088687213 cites W1990892589 @default.
W2088687213 cites W1991902514 @default.
W2088687213 cites W1992751990 @default.
W2088687213 cites W1993560740 @default.
W2088687213 cites W1994506608 @default.
W2088687213 cites W1997560023 @default.
W2088687213 cites W1998643121 @default.
W2088687213 cites W2003131851 @default.
W2088687213 cites W2003621535 @default.
W2088687213 cites W2005124817 @default.
W2088687213 cites W2009471187 @default.
W2088687213 cites W2010597649 @default.
W2088687213 cites W2012355040 @default.
W2088687213 cites W2018154100 @default.
W2088687213 cites W2022045129 @default.
W2088687213 cites W2022084776 @default.
W2088687213 cites W2022347455 @default.
W2088687213 cites W2023517010 @default.
W2088687213 cites W2023525063 @default.
W2088687213 cites W2024353470 @default.
W2088687213 cites W2029604856 @default.
W2088687213 cites W2032415276 @default.
W2088687213 cites W2043891653 @default.
W2088687213 cites W2046070545 @default.
W2088687213 cites W2048946192 @default.
W2088687213 cites W2049405423 @default.
W2088687213 cites W2051730874 @default.
W2088687213 cites W2057448426 @default.
W2088687213 cites W2057775875 @default.
W2088687213 cites W2059778194 @default.
W2088687213 cites W2069001610 @default.
W2088687213 cites W2076094312 @default.
W2088687213 cites W2081313542 @default.
W2088687213 cites W2082252977 @default.
W2088687213 cites W2082477647 @default.
W2088687213 cites W2084382168 @default.
W2088687213 cites W2087790155 @default.
W2088687213 cites W2088734745 @default.
W2088687213 cites W2095353638 @default.
W2088687213 cites W2097763036 @default.
W2088687213 cites W2112385570 @default.
W2088687213 cites W2114845082 @default.
W2088687213 cites W2116885410 @default.
W2088687213 cites W2117803659 @default.
W2088687213 cites W2119331435 @default.
W2088687213 cites W2119502831 @default.
W2088687213 cites W2125384224 @default.
W2088687213 cites W2126955632 @default.
W2088687213 cites W2127215108 @default.
W2088687213 cites W2129814064 @default.
W2088687213 cites W2130042267 @default.
W2088687213 cites W2137071088 @default.
W2088687213 cites W2145479530 @default.
W2088687213 cites W2146930371 @default.
W2088687213 cites W2148815839 @default.
W2088687213 cites W2150009788 @default.
W2088687213 cites W2153146321 @default.
W2088687213 cites W2171275477 @default.
W2088687213 cites W2171415361 @default.
W2088687213 cites W2186528780 @default.
W2088687213 cites W4236818671 @default.
W2088687213 doi "https://doi.org/10.3390/atmos6030361" @default.
W2088687213 hasPublicationYear "2015" @default.
W2088687213 type Work @default.
W2088687213 sameAs 2088687213 @default.
W2088687213 citedByCount "21" @default.
W2088687213 countsByYear W20886872132015 @default.
W2088687213 countsByYear W20886872132017 @default.
W2088687213 countsByYear W20886872132018 @default.
W2088687213 countsByYear W20886872132019 @default.
W2088687213 countsByYear W20886872132020 @default.
W2088687213 countsByYear W20886872132021 @default.
W2088687213 countsByYear W20886872132022 @default.
W2088687213 countsByYear W20886872132023 @default.
W2088687213 crossrefType "journal-article" @default.
W2088687213 hasAuthorship W2088687213A5000320455 @default.
W2088687213 hasAuthorship W2088687213A5000457151 @default.
W2088687213 hasAuthorship W2088687213A5024706119 @default.
W2088687213 hasAuthorship W2088687213A5044159048 @default.