SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308367132> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W4308367132 endingPage "8747" @default.
W4308367132 startingPage "8733" @default.
W4308367132 abstract "Liquid foams are multi-scale structures whose structural characterization requires the combination of very different techniques. This inherently complex task is made more difficult by the fact that foams are also intrinsically unstable systems and that their properties are highly dependent on the production protocol and sample container. To tackle these issues, a new device has been developed that enables the simultaneous time-resolved investigation of foams by small-angle neutron scattering (SANS), electrical conductivity, and bubbles imaging. This device allows the characterization of the foam and its aging from nanometer up to centimeter scale in a single experiment. A specific SANS model was developed to quantitatively adjust the scattering intensity from the dry foam. Structural features such as the liquid fraction, specific surface area of the Plateau borders and inter-bubble films, and thin film thickness were deduced from this analysis, and some of these values were compared with values extracted from the other applied techniques. This approach has been applied to a surfactant-stabilized liquid foam under free drainage and the underlying foam destabilization mechanisms were discussed with unprecedented detail. For example, the information extracted from the image analysis and SANS data allows for the first time to determine the disjoining pressure vs. thickness isotherm in a real, draining foam." @default.
W4308367132 created "2022-11-11" @default.
W4308367132 creator A5011490050 @default.
W4308367132 creator A5037268662 @default.
W4308367132 creator A5042299891 @default.
W4308367132 creator A5062706180 @default.
W4308367132 creator A5068926716 @default.
W4308367132 creator A5079577008 @default.
W4308367132 date "2022-01-01" @default.
W4308367132 modified "2023-09-30" @default.
W4308367132 title "Probing foams from the nanometer to the millimeter scale by coupling small-angle neutron scattering, imaging, and electrical conductivity measurements" @default.
W4308367132 cites W1837860043 @default.
W4308367132 cites W1963793345 @default.
W4308367132 cites W1964667007 @default.
W4308367132 cites W1974944078 @default.
W4308367132 cites W1989654241 @default.
W4308367132 cites W1989868128 @default.
W4308367132 cites W1993488225 @default.
W4308367132 cites W1996883801 @default.
W4308367132 cites W2014380477 @default.
W4308367132 cites W2014591502 @default.
W4308367132 cites W2022309531 @default.
W4308367132 cites W2027551773 @default.
W4308367132 cites W2028326418 @default.
W4308367132 cites W2028465475 @default.
W4308367132 cites W2041992444 @default.
W4308367132 cites W2043596471 @default.
W4308367132 cites W2052735316 @default.
W4308367132 cites W2056992243 @default.
W4308367132 cites W2057357773 @default.
W4308367132 cites W2057733894 @default.
W4308367132 cites W2066092086 @default.
W4308367132 cites W2067257977 @default.
W4308367132 cites W2070112796 @default.
W4308367132 cites W2086529087 @default.
W4308367132 cites W2092343332 @default.
W4308367132 cites W2100090024 @default.
W4308367132 cites W2100359597 @default.
W4308367132 cites W2106437578 @default.
W4308367132 cites W2123382940 @default.
W4308367132 cites W2124734995 @default.
W4308367132 cites W2135406757 @default.
W4308367132 cites W2145031322 @default.
W4308367132 cites W2154279999 @default.
W4308367132 cites W2163035053 @default.
W4308367132 cites W2175032708 @default.
W4308367132 cites W2318626145 @default.
W4308367132 cites W2323687402 @default.
W4308367132 cites W2469915679 @default.
W4308367132 cites W2518166387 @default.
W4308367132 cites W2586946719 @default.
W4308367132 cites W2612950807 @default.
W4308367132 cites W2736484778 @default.
W4308367132 cites W2768037887 @default.
W4308367132 cites W2904600431 @default.
W4308367132 cites W2912329568 @default.
W4308367132 cites W2996221398 @default.
W4308367132 cites W3000119924 @default.
W4308367132 cites W3034507847 @default.
W4308367132 cites W3092110707 @default.
W4308367132 cites W3093215186 @default.
W4308367132 cites W3104011872 @default.
W4308367132 cites W3109517325 @default.
W4308367132 cites W3122309323 @default.
W4308367132 cites W3133889938 @default.
W4308367132 cites W3135405518 @default.
W4308367132 cites W3137305441 @default.
W4308367132 cites W3142943170 @default.
W4308367132 cites W3166423811 @default.
W4308367132 cites W3168555468 @default.
W4308367132 cites W3198570080 @default.
W4308367132 cites W3203232877 @default.
W4308367132 cites W3205423214 @default.
W4308367132 cites W4232359129 @default.
W4308367132 cites W4254427694 @default.
W4308367132 cites W4283390540 @default.
W4308367132 cites W4293169236 @default.
W4308367132 cites W968050770 @default.
W4308367132 doi "https://doi.org/10.1039/d2sm01252a" @default.
W4308367132 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36341841" @default.
W4308367132 hasPublicationYear "2022" @default.
W4308367132 type Work @default.
W4308367132 citedByCount "3" @default.
W4308367132 countsByYear W43083671322023 @default.
W4308367132 crossrefType "journal-article" @default.
W4308367132 hasAuthorship W4308367132A5011490050 @default.
W4308367132 hasAuthorship W4308367132A5037268662 @default.
W4308367132 hasAuthorship W4308367132A5042299891 @default.
W4308367132 hasAuthorship W4308367132A5062706180 @default.
W4308367132 hasAuthorship W4308367132A5068926716 @default.
W4308367132 hasAuthorship W4308367132A5079577008 @default.
W4308367132 hasBestOaLocation W43083671321 @default.
W4308367132 hasConcept C104015590 @default.
W4308367132 hasConcept C109792285 @default.
W4308367132 hasConcept C120665830 @default.
W4308367132 hasConcept C121332964 @default.
W4308367132 hasConcept C131540310 @default.
W4308367132 hasConcept C132841051 @default.