SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2508536161> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2508536161 abstract "Abstract Atmospheric water vapour interacting with hydrophilic mineral surfaces can produce water films of various thicknesses and structures. In this work we show that mineral particle size controls water loadings achieved by water vapour deposition on 21 contrasting mineral samples exposed to atmospheres of up to ~16 Torr water (70% relative humidity at 25 °C). Submicrometer-sized particles hosted up to ~5 monolayers of water, while micrometer-sized particles up to several thousand monolayers. All films exhibited vibrational spectroscopic signals akin to liquid water, yet with a disrupted network of hydrogen bonds. Water adsorption isotherms were predicted using models (1- or 2- term Freundlich and Do-Do models) describing an adsorption and a condensation regime, respectively pertaining to the binding of water onto mineral surfaces and water film growth by water-water interactions. The Hygroscopic Growth Theory could also account for the particle size dependence on condensable water loadings under the premise that larger particles have a greater propensity of exhibiting of surface regions and interparticle spacings facilitating water condensation reactions. Our work should impact our ability to predict water film formation at mineral surfaces of contrasting particle sizes and should thus contribute to our understanding of water adsorption and condensation reactions occuring in nature." @default.
W2508536161 created "2016-09-16" @default.
W2508536161 creator A5028158469 @default.
W2508536161 creator A5080426486 @default.
W2508536161 date "2016-08-26" @default.
W2508536161 modified "2023-10-17" @default.
W2508536161 title "Particle Size Controls on Water Adsorption and Condensation Regimes at Mineral Surfaces" @default.
W2508536161 cites W1559230527 @default.
W2508536161 cites W1905958092 @default.
W2508536161 cites W1964308177 @default.
W2508536161 cites W1965158560 @default.
W2508536161 cites W1967286625 @default.
W2508536161 cites W1975264953 @default.
W2508536161 cites W1980704616 @default.
W2508536161 cites W1981445057 @default.
W2508536161 cites W1988071565 @default.
W2508536161 cites W1989992912 @default.
W2508536161 cites W2005341126 @default.
W2508536161 cites W2007230074 @default.
W2508536161 cites W2008069922 @default.
W2508536161 cites W2011050862 @default.
W2508536161 cites W2011254969 @default.
W2508536161 cites W2015173225 @default.
W2508536161 cites W2018329409 @default.
W2508536161 cites W2020328435 @default.
W2508536161 cites W2027271302 @default.
W2508536161 cites W2033017212 @default.
W2508536161 cites W2034261510 @default.
W2508536161 cites W2039902016 @default.
W2508536161 cites W2046779413 @default.
W2508536161 cites W2053646993 @default.
W2508536161 cites W2055989793 @default.
W2508536161 cites W2073115945 @default.
W2508536161 cites W2086477690 @default.
W2508536161 cites W2093674996 @default.
W2508536161 cites W2093904067 @default.
W2508536161 cites W2094342208 @default.
W2508536161 cites W2099636727 @default.
W2508536161 cites W2100365896 @default.
W2508536161 cites W2105463749 @default.
W2508536161 cites W2105781483 @default.
W2508536161 cites W2114337380 @default.
W2508536161 cites W2116454668 @default.
W2508536161 cites W2131517185 @default.
W2508536161 cites W2132077964 @default.
W2508536161 cites W2132281993 @default.
W2508536161 cites W2140149092 @default.
W2508536161 cites W2157021390 @default.
W2508536161 cites W2164125317 @default.
W2508536161 cites W2167248737 @default.
W2508536161 cites W2167602740 @default.
W2508536161 cites W2171454930 @default.
W2508536161 cites W2199144780 @default.
W2508536161 cites W2239453127 @default.
W2508536161 cites W2302389076 @default.
W2508536161 cites W2303186459 @default.
W2508536161 cites W2303683068 @default.
W2508536161 cites W2316546267 @default.
W2508536161 cites W2413414999 @default.
W2508536161 cites W2469980147 @default.
W2508536161 cites W3102140724 @default.
W2508536161 cites W4236270162 @default.
W2508536161 cites W998335813 @default.
W2508536161 doi "https://doi.org/10.1038/srep32136" @default.
W2508536161 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5000481" @default.
W2508536161 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27561325" @default.
W2508536161 hasPublicationYear "2016" @default.
W2508536161 type Work @default.
W2508536161 sameAs 2508536161 @default.
W2508536161 citedByCount "48" @default.
W2508536161 countsByYear W25085361612017 @default.
W2508536161 countsByYear W25085361612018 @default.
W2508536161 countsByYear W25085361612019 @default.
W2508536161 countsByYear W25085361612020 @default.
W2508536161 countsByYear W25085361612021 @default.
W2508536161 countsByYear W25085361612022 @default.
W2508536161 countsByYear W25085361612023 @default.
W2508536161 crossrefType "journal-article" @default.
W2508536161 hasAuthorship W2508536161A5028158469 @default.
W2508536161 hasAuthorship W2508536161A5080426486 @default.
W2508536161 hasBestOaLocation W25085361611 @default.
W2508536161 hasConcept C111368507 @default.
W2508536161 hasConcept C121332964 @default.
W2508536161 hasConcept C127313418 @default.
W2508536161 hasConcept C127413603 @default.
W2508536161 hasConcept C147534773 @default.
W2508536161 hasConcept C147789679 @default.
W2508536161 hasConcept C150394285 @default.
W2508536161 hasConcept C151420433 @default.
W2508536161 hasConcept C158960510 @default.
W2508536161 hasConcept C159467904 @default.
W2508536161 hasConcept C171250308 @default.
W2508536161 hasConcept C178790620 @default.
W2508536161 hasConcept C185592680 @default.
W2508536161 hasConcept C187530423 @default.
W2508536161 hasConcept C191897082 @default.
W2508536161 hasConcept C192562407 @default.
W2508536161 hasConcept C199289684 @default.
W2508536161 hasConcept C200093464 @default.
W2508536161 hasConcept C2775916161 @default.