AI Article Synopsis
- Molecular dynamics simulations reveal that water surfaces significantly change the equilibrium structure of bent-core molecules by favoring new torsional states.
- Substituting chlorine atoms for hydrogen on the central phenyl ring stabilizes the molecule in a single torsional state rather than allowing it to spread across multiple states.
- The study discusses how these structural changes impact the chirality and arrangement of the molecules at the water interface.
Article Abstract
Molecular dynamics simulations are carried out for bent-core molecules at water surfaces. The water surface is shown to alter the equilibrium molecular structure significantly by causing a different class of torsional states to become more favorable. The equilibrium structure is also altered by the substitution of chlorine atoms for hydrogen atoms on the central phenyl ring in that this substitution forces the bent core to remain in a single torsional state rather than be delocalized among several torsional states. The consequences of these structural changes on the chirality and packing of these molecules on water surfaces are discussed.
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| http://dx.doi.org/10.1021/la0620253 | DOI Listing |
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