SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2964793908> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W2964793908 endingPage "11145" @default.
W2964793908 startingPage "11138" @default.
W2964793908 abstract "In the atmosphere, there are several different trajectories by which particles can nucleate ice; two of the major pathways are deposition and immersion freezing. Single particle depositional freezing has been widely studied with spectroscopic methods while immersion freezing has been predominantly studied either for particles within bulk aqueous solutions or using optical imaging of single particles. Of the few existing spectroscopic methods that monitor immersion freezing, there are limited opportunities for investigating the impact of heterogeneous chemistry on freezing. Herein, we describe a method that couples a confocal Raman spectrometer with an environmental cell to investigate single particle immersion freezing along with the capability to investigate in situ the impact of heterogeneous reactions with ozone and other trace gases on ice nucleation. This system, which has been rigorously calibrated (temperature and relative humidity) across a large dynamic range, is used to investigate low temperature water uptake and heterogeneous ice nucleation of atmospherically relevant single particles deposited on a substrate. The use of Raman spectroscopy provides important insights into the phase state and chemical composition of ice nuclei and, thus, insights into cloud formation." @default.
W2964793908 created "2019-08-13" @default.
W2964793908 creator A5043129320 @default.
W2964793908 creator A5079344465 @default.
W2964793908 creator A5089495810 @default.
W2964793908 date "2019-08-02" @default.
W2964793908 modified "2023-10-01" @default.
W2964793908 title "Measurements of Immersion Freezing and Heterogeneous Chemistry of Atmospherically Relevant Single Particles with Micro-Raman Spectroscopy" @default.
W2964793908 cites W1570025454 @default.
W2964793908 cites W1748428292 @default.
W2964793908 cites W1783045389 @default.
W2964793908 cites W1890193808 @default.
W2964793908 cites W1918051004 @default.
W2964793908 cites W1964707815 @default.
W2964793908 cites W1966932620 @default.
W2964793908 cites W1968409059 @default.
W2964793908 cites W1991078450 @default.
W2964793908 cites W1993436181 @default.
W2964793908 cites W1999435695 @default.
W2964793908 cites W1999919409 @default.
W2964793908 cites W2005056392 @default.
W2964793908 cites W2005341126 @default.
W2964793908 cites W2013409451 @default.
W2964793908 cites W2016809654 @default.
W2964793908 cites W2022164742 @default.
W2964793908 cites W2024514869 @default.
W2964793908 cites W2029166000 @default.
W2964793908 cites W2030102203 @default.
W2964793908 cites W2038810774 @default.
W2964793908 cites W2048462336 @default.
W2964793908 cites W2049186765 @default.
W2964793908 cites W2062644486 @default.
W2964793908 cites W2064465292 @default.
W2964793908 cites W2076432100 @default.
W2964793908 cites W2088509007 @default.
W2964793908 cites W2093674996 @default.
W2964793908 cites W2095594660 @default.
W2964793908 cites W2097314375 @default.
W2964793908 cites W2102319010 @default.
W2964793908 cites W2103792347 @default.
W2964793908 cites W2107578575 @default.
W2964793908 cites W2109629341 @default.
W2964793908 cites W2117381715 @default.
W2964793908 cites W2118423529 @default.
W2964793908 cites W2118660270 @default.
W2964793908 cites W2119101262 @default.
W2964793908 cites W2124138535 @default.
W2964793908 cites W2136351893 @default.
W2964793908 cites W2145095547 @default.
W2964793908 cites W2150711435 @default.
W2964793908 cites W2157297038 @default.
W2964793908 cites W2162509780 @default.
W2964793908 cites W2170544731 @default.
W2964793908 cites W2172977821 @default.
W2964793908 cites W2296138349 @default.
W2964793908 cites W2296300473 @default.
W2964793908 cites W2302598575 @default.
W2964793908 cites W2315430931 @default.
W2964793908 cites W2322581113 @default.
W2964793908 cites W2334534988 @default.
W2964793908 cites W2339787076 @default.
W2964793908 cites W2404197257 @default.
W2964793908 cites W2519406091 @default.
W2964793908 cites W2519522878 @default.
W2964793908 cites W2558849888 @default.
W2964793908 cites W2587302961 @default.
W2964793908 cites W2593887101 @default.
W2964793908 cites W2613849307 @default.
W2964793908 cites W2734624992 @default.
W2964793908 cites W2784555771 @default.
W2964793908 cites W2802086011 @default.
W2964793908 cites W2804317099 @default.
W2964793908 cites W2809247870 @default.
W2964793908 cites W2898173402 @default.
W2964793908 cites W4205154152 @default.
W2964793908 cites W4213319206 @default.
W2964793908 cites W4293509612 @default.
W2964793908 doi "https://doi.org/10.1021/acs.analchem.9b01819" @default.
W2964793908 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31373198" @default.
W2964793908 hasPublicationYear "2019" @default.
W2964793908 type Work @default.
W2964793908 sameAs 2964793908 @default.
W2964793908 citedByCount "13" @default.
W2964793908 countsByYear W29647939082020 @default.
W2964793908 countsByYear W29647939082021 @default.
W2964793908 countsByYear W29647939082022 @default.
W2964793908 countsByYear W29647939082023 @default.
W2964793908 crossrefType "journal-article" @default.
W2964793908 hasAuthorship W2964793908A5043129320 @default.
W2964793908 hasAuthorship W2964793908A5079344465 @default.
W2964793908 hasAuthorship W2964793908A5089495810 @default.
W2964793908 hasConcept C107872376 @default.
W2964793908 hasConcept C111368507 @default.
W2964793908 hasConcept C112964491 @default.
W2964793908 hasConcept C113196181 @default.
W2964793908 hasConcept C120665830 @default.
W2964793908 hasConcept C121332964 @default.
W2964793908 hasConcept C122409099 @default.