Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase Tension
The notion of three-phase (line) tension remains one of the most disputable notions in surface science. A very broad range of its values has been reported. Experts even do not agree on the sign of line tension. The polymer-chain-like model of three-phase (triple) line enables rough estimation of ent...
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MDPI AG
2018-09-01
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| Series: | Entropy |
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| Online Access: | http://www.mdpi.com/1099-4300/20/9/712 |
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doaj-c2c156aba0544f6287c452c2dd208adf2020-11-25T00:33:41ZengMDPI AGEntropy1099-43002018-09-0120971210.3390/e20090712e20090712Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase TensionEdward Bormashenko0Engineering Faculty, Chemical Engineering, Biotechnology and Materials Department, Ariel University, P.O. BOX 3, Ariel 407000, IsraelThe notion of three-phase (line) tension remains one of the most disputable notions in surface science. A very broad range of its values has been reported. Experts even do not agree on the sign of line tension. The polymer-chain-like model of three-phase (triple) line enables rough estimation of entropic input into the value of line tension, estimated as Γ e n ≅ k B T d m ≅ 10 − 11 N , where d m is the diameter of the liquid molecule. The introduction of the polymer-chain-like model of the triple line is justified by the “water string” model of the liquid state, predicting strong orientation effects for liquid molecules located near hydrophobic moieties. The estimated value of the entropic input into the line tension is close to experimental findings, reported by various groups, and seems to be relevant for the understanding of elastic properties of biological membranes.http://www.mdpi.com/1099-4300/20/9/712line tensionentropic contributionentropic forceorientation effecthydrophobic substrate |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Edward Bormashenko |
| spellingShingle |
Edward Bormashenko Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase Tension Entropy line tension entropic contribution entropic force orientation effect hydrophobic substrate |
| author_facet |
Edward Bormashenko |
| author_sort |
Edward Bormashenko |
| title |
Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase Tension |
| title_short |
Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase Tension |
| title_full |
Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase Tension |
| title_fullStr |
Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase Tension |
| title_full_unstemmed |
Entropy Contribution to the Line Tension: Insights from Polymer Physics, Water String Theory, and the Three-Phase Tension |
| title_sort |
entropy contribution to the line tension: insights from polymer physics, water string theory, and the three-phase tension |
| publisher |
MDPI AG |
| series |
Entropy |
| issn |
1099-4300 |
| publishDate |
2018-09-01 |
| description |
The notion of three-phase (line) tension remains one of the most disputable notions in surface science. A very broad range of its values has been reported. Experts even do not agree on the sign of line tension. The polymer-chain-like model of three-phase (triple) line enables rough estimation of entropic input into the value of line tension, estimated as Γ e n ≅ k B T d m ≅ 10 − 11 N , where d m is the diameter of the liquid molecule. The introduction of the polymer-chain-like model of the triple line is justified by the “water string” model of the liquid state, predicting strong orientation effects for liquid molecules located near hydrophobic moieties. The estimated value of the entropic input into the line tension is close to experimental findings, reported by various groups, and seems to be relevant for the understanding of elastic properties of biological membranes. |
| topic |
line tension entropic contribution entropic force orientation effect hydrophobic substrate |
| url |
http://www.mdpi.com/1099-4300/20/9/712 |
| work_keys_str_mv |
AT edwardbormashenko entropycontributiontothelinetensioninsightsfrompolymerphysicswaterstringtheoryandthethreephasetension |
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1725315505222320128 |