SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2912553148> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W2912553148 endingPage "13" @default.
W2912553148 startingPage "13" @default.
W2912553148 abstract "A novel approach to analysis of complex gaseous mixtures is presented. The approach is based on the utilization of a compact gas chromatograph in combination with an array of highly integrated and selective metal oxide (MOX) sensors. Thanks to the implementation of a multisensory detector, the device collects multiple chromatograms in a single run. The sensors in the integrated MEMS platform are very distinct in their catalytic properties. Hence, the time separation by chromatographic column is complemented by catalytic separation by a multisensory detector. Furthermore, the device can perform the analysis in a broad range of concentrations, from ppb to hundreds of ppm. Low ppb and even sub-ppb levels of detection for some analytes were achieved. As a part of this effort, nanocomposite gas sensors were synthesized for selective detection of hydrogen sulfide, mercaptans, alcohols, ketones, and heavy hydrocarbons." @default.
W2912553148 created "2019-02-21" @default.
W2912553148 creator A5055431208 @default.
W2912553148 creator A5066441023 @default.
W2912553148 date "2019-02-02" @default.
W2912553148 modified "2023-10-06" @default.
W2912553148 title "Multisensory Gas Chromatography for Field Analysis of Complex Gaseous Mixtures" @default.
W2912553148 cites W1564763211 @default.
W2912553148 cites W1842914115 @default.
W2912553148 cites W1947353295 @default.
W2912553148 cites W1967344963 @default.
W2912553148 cites W1973143575 @default.
W2912553148 cites W1977901738 @default.
W2912553148 cites W1991108133 @default.
W2912553148 cites W1992000567 @default.
W2912553148 cites W1992099044 @default.
W2912553148 cites W1993901475 @default.
W2912553148 cites W2000985395 @default.
W2912553148 cites W2001115746 @default.
W2912553148 cites W2004898030 @default.
W2912553148 cites W2006346594 @default.
W2912553148 cites W2009721981 @default.
W2912553148 cites W2011551836 @default.
W2912553148 cites W2012771196 @default.
W2912553148 cites W2013365434 @default.
W2912553148 cites W2015796772 @default.
W2912553148 cites W2016483172 @default.
W2912553148 cites W2017707012 @default.
W2912553148 cites W2019627803 @default.
W2912553148 cites W2021906532 @default.
W2912553148 cites W2030763565 @default.
W2912553148 cites W2033885602 @default.
W2912553148 cites W2035488481 @default.
W2912553148 cites W2042389786 @default.
W2912553148 cites W2048541209 @default.
W2912553148 cites W2053133246 @default.
W2912553148 cites W2054529263 @default.
W2912553148 cites W2059170529 @default.
W2912553148 cites W2060208072 @default.
W2912553148 cites W2068814701 @default.
W2912553148 cites W2077312454 @default.
W2912553148 cites W2080612412 @default.
W2912553148 cites W2083124584 @default.
W2912553148 cites W2083202004 @default.
W2912553148 cites W2093946942 @default.
W2912553148 cites W2107610392 @default.
W2912553148 cites W2116234122 @default.
W2912553148 cites W2128222080 @default.
W2912553148 cites W2131656839 @default.
W2912553148 cites W2134017570 @default.
W2912553148 cites W2146641398 @default.
W2912553148 cites W2152497214 @default.
W2912553148 cites W2156799532 @default.
W2912553148 cites W2183135271 @default.
W2912553148 cites W2286558638 @default.
W2912553148 cites W2512775104 @default.
W2912553148 cites W2513945611 @default.
W2912553148 cites W2762197355 @default.
W2912553148 cites W2804666642 @default.
W2912553148 cites W818164569 @default.
W2912553148 doi "https://doi.org/10.3390/chemengineering3010013" @default.
W2912553148 hasPublicationYear "2019" @default.
W2912553148 type Work @default.
W2912553148 sameAs 2912553148 @default.
W2912553148 citedByCount "8" @default.
W2912553148 countsByYear W29125531482019 @default.
W2912553148 countsByYear W29125531482020 @default.
W2912553148 countsByYear W29125531482021 @default.
W2912553148 countsByYear W29125531482023 @default.
W2912553148 crossrefType "journal-article" @default.
W2912553148 hasAuthorship W2912553148A5055431208 @default.
W2912553148 hasAuthorship W2912553148A5066441023 @default.
W2912553148 hasBestOaLocation W29125531481 @default.
W2912553148 hasConcept C10390740 @default.
W2912553148 hasConcept C113196181 @default.
W2912553148 hasConcept C123460561 @default.
W2912553148 hasConcept C13965031 @default.
W2912553148 hasConcept C161790260 @default.
W2912553148 hasConcept C178790620 @default.
W2912553148 hasConcept C185592680 @default.
W2912553148 hasConcept C2780564542 @default.
W2912553148 hasConcept C41008148 @default.
W2912553148 hasConcept C43617362 @default.
W2912553148 hasConcept C512968161 @default.
W2912553148 hasConcept C518881349 @default.
W2912553148 hasConcept C540271850 @default.
W2912553148 hasConcept C76155785 @default.
W2912553148 hasConcept C8138999 @default.
W2912553148 hasConcept C94915269 @default.
W2912553148 hasConceptScore W2912553148C10390740 @default.
W2912553148 hasConceptScore W2912553148C113196181 @default.
W2912553148 hasConceptScore W2912553148C123460561 @default.
W2912553148 hasConceptScore W2912553148C13965031 @default.
W2912553148 hasConceptScore W2912553148C161790260 @default.
W2912553148 hasConceptScore W2912553148C178790620 @default.
W2912553148 hasConceptScore W2912553148C185592680 @default.
W2912553148 hasConceptScore W2912553148C2780564542 @default.
W2912553148 hasConceptScore W2912553148C41008148 @default.