SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2558849888> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W2558849888 endingPage "10180" @default.
W2558849888 startingPage "10169" @default.
W2558849888 abstract "An optical ice microscope apparatus equipped with a sealed cooling stage and a CCD camera was used to examine contact freezing events between a water droplet and ice nucleating particles (INP) containing organic hydrocarbons including octacosane, squalane, and squalene. Sample viscosities were measured with a capillary viscometer and compositions were characterized using Fourier transfer infrared spectroscopy with horizontal attenuated total reflectance and Raman microspectroscopy. All of the samples proved to be moderately efficient ice nuclei that induced freezing between −23 and −26 °C, regardless of whether the INP was solid or liquid. At their ice nucleating temperatures, the viscosity of the liquid samples (squalane and squalene) was 0.6 P or greater. Oxidation increased the viscosity of squalene to over 1330 P, but decreased the viscosity of squalane to 0.07 P at room temperature. Most importantly, our results demonstrate that even moderately viscous liquids in contact with water droplets can act to catalyze freezing, plausibly by providing a flexible template which decreases the energy barrier to ice nucleation. The simple soccer ball model of nucleation theory was used to derive the probability of freezing and nucleation rate coefficients as a function of temperature for each type of INP." @default.
W2558849888 created "2016-12-08" @default.
W2558849888 creator A5054069509 @default.
W2558849888 date "2016-12-14" @default.
W2558849888 modified "2023-10-18" @default.
W2558849888 title "Role of Organic Hydrocarbons in Atmospheric Ice Formation via Contact Freezing" @default.
W2558849888 cites W1509184438 @default.
W2558849888 cites W1573979547 @default.
W2558849888 cites W1969124790 @default.
W2558849888 cites W1969298331 @default.
W2558849888 cites W1971700919 @default.
W2558849888 cites W1975338175 @default.
W2558849888 cites W1978391752 @default.
W2558849888 cites W1978578998 @default.
W2558849888 cites W1982744822 @default.
W2558849888 cites W1994059485 @default.
W2558849888 cites W1998181706 @default.
W2558849888 cites W2001219782 @default.
W2558849888 cites W2005820033 @default.
W2558849888 cites W2016711968 @default.
W2558849888 cites W2018735695 @default.
W2558849888 cites W2019890784 @default.
W2558849888 cites W2025209400 @default.
W2558849888 cites W2029034950 @default.
W2558849888 cites W2029944060 @default.
W2558849888 cites W2031454636 @default.
W2558849888 cites W2033745265 @default.
W2558849888 cites W2033811093 @default.
W2558849888 cites W2034668805 @default.
W2558849888 cites W2035215452 @default.
W2558849888 cites W2037307077 @default.
W2558849888 cites W2047926788 @default.
W2558849888 cites W2048494480 @default.
W2558849888 cites W2049905428 @default.
W2558849888 cites W2067209936 @default.
W2558849888 cites W2073497873 @default.
W2558849888 cites W2074087563 @default.
W2558849888 cites W2074766648 @default.
W2558849888 cites W2074847173 @default.
W2558849888 cites W2089618495 @default.
W2558849888 cites W2093674996 @default.
W2558849888 cites W2096237545 @default.
W2558849888 cites W2103516396 @default.
W2558849888 cites W2109723381 @default.
W2558849888 cites W2114479908 @default.
W2558849888 cites W2114656203 @default.
W2558849888 cites W2116507044 @default.
W2558849888 cites W2127510753 @default.
W2558849888 cites W2128869037 @default.
W2558849888 cites W2138881777 @default.
W2558849888 cites W2140137657 @default.
W2558849888 cites W2144188667 @default.
W2558849888 cites W2144719204 @default.
W2558849888 cites W2144923407 @default.
W2558849888 cites W2153034595 @default.
W2558849888 cites W2157297038 @default.
W2558849888 cites W2161411175 @default.
W2558849888 cites W2166829885 @default.
W2558849888 cites W2167089987 @default.
W2558849888 cites W2178107946 @default.
W2558849888 cites W2205329482 @default.
W2558849888 cites W2302465550 @default.
W2558849888 cites W2313834569 @default.
W2558849888 cites W2318883567 @default.
W2558849888 cites W2322581113 @default.
W2558849888 cites W2323708952 @default.
W2558849888 cites W2333130878 @default.
W2558849888 cites W2405493398 @default.
W2558849888 cites W2418251523 @default.
W2558849888 cites W3021160438 @default.
W2558849888 cites W3102140724 @default.
W2558849888 cites W4229539232 @default.
W2558849888 cites W4234830908 @default.
W2558849888 cites W4238840347 @default.
W2558849888 cites W4241137673 @default.
W2558849888 doi "https://doi.org/10.1021/acs.jpca.6b11890" @default.
W2558849888 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27966972" @default.
W2558849888 hasPublicationYear "2016" @default.
W2558849888 type Work @default.
W2558849888 sameAs 2558849888 @default.
W2558849888 citedByCount "15" @default.
W2558849888 countsByYear W25588498882017 @default.
W2558849888 countsByYear W25588498882018 @default.
W2558849888 countsByYear W25588498882019 @default.
W2558849888 countsByYear W25588498882020 @default.
W2558849888 countsByYear W25588498882021 @default.
W2558849888 countsByYear W25588498882022 @default.
W2558849888 countsByYear W25588498882023 @default.
W2558849888 crossrefType "journal-article" @default.
W2558849888 hasAuthorship W2558849888A5054069509 @default.
W2558849888 hasBestOaLocation W25588498882 @default.
W2558849888 hasConcept C113196181 @default.
W2558849888 hasConcept C120665830 @default.
W2558849888 hasConcept C121332964 @default.
W2558849888 hasConcept C122409099 @default.
W2558849888 hasConcept C127172972 @default.
W2558849888 hasConcept C127413603 @default.
W2558849888 hasConcept C159985019 @default.