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         "type" : "Publication",
         "id"   : "https://puma.ub.uni-stuttgart.de/bibtex/20bc5423bad2d892ca32f23df1b25eff9/contactangles",         
         "tags" : [
            "static","CAH","angle","contact","from:johannesmueller","hysteresis","pseudo"
         ],
         
         "intraHash" : "0bc5423bad2d892ca32f23df1b25eff9",
         "interHash" : "1a511c4e71b1a9a65ac99d82499e3682",
         "label" : "Static contact angle hysteresis on smooth, homogeneous solid substrates",
         "user" : "contactangles",
         "description" : "",
         "date" : "2022-09-13 14:21:19",
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         "pub-type": "article",
         "journal": "Colloid and Polymer Science",
         "year": "2013", 
         "url": "https://doi.org/10.1007/s00396-012-2840-6", 
         
         "author": [ 
            "Victor Starov"
         ],
         "authors": [
         	
            	{"first" : "Victor",	"last" : "Starov"}
         ],
         "volume": "291","number": "2","pages": "261--270","abstract": "A theory of contact angle hysteresis on smooth, homogeneous solid substrates is developed in terms of shape of disjoining/conjoining pressure isotherm and quasi-equilibrium phenomena. It is shown that all contact angles, $þeta$, in the range $þeta$rþinspace<þinspace$þeta$þinspace<þinspace$þeta$a, which are different from the unique equilibrium contact angle $þeta$þinspace≠þinspace$þeta$e, correspond to the state of slow ``microscopic'' advancing or receding motion of the liquid if $þeta$eþinspace<þinspace$þeta$þinspace<þinspace$þeta$a or $þeta$rþinspace<þinspace$þeta$þinspace<þinspace$þeta$e, respectively. This ``microscopic'' motion almost abruptly becomes fast ``macroscopic'' advancing or receding motion after the contact angle reaches the critical values $þeta$þinspace=þinspace$þeta$a or $þeta$rþinspace=þinspace$þeta$, correspondingly. The values of the static receding, $þeta$r, and static advancing, $þeta$a, contact angles in cylindrical capillaries were calculated earlier, based on the shape of disjoining pressure isotherm. It is shown that an advancing contact angle of a droplet on a solid substrate depends on the drop volume and is not a unique characteristic of the liquid--solid system. The suggested mechanism of contact angle hysteresis has direct experimental confirmation.",
         "issn" : "1435-1536",
         
         "doi" : "10.1007/s00396-012-2840-6",
         
         "bibtexKey": "Starov2013"

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