Spread monolayers: Structure, flows and dynamic self-organization phenomena

Spread monolayers: Structure, flows and dynamic self-organization phenomena

Condensed matter physics is facing new challenges and opportunities raising from the vast and increasingly attractive field of soft materials and complex fluids. Here, we concentrate on one of the simplest experimental examples by reviewing different structural and dynamical properties of spread (La...

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Bibliographic Details
Published in:Physics reports Vol. 448; no. 5; pp. 163 - 179
Main Authors: Ignés-Mullol, Jordi, Claret, Josep, Reigada, Ramon, Sagués, Francesc
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-08-2007
Elsevier Science
Subjects:
Exact sciences and technology
Physics
68.18.−g
83.85.Cg
81.16.Dn
Relaxation
Self organization
Dynamics
Fluid flow
Dynamic properties
Forcing
Dynamic model
Mesoscopic systems
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Summary:Condensed matter physics is facing new challenges and opportunities raising from the vast and increasingly attractive field of soft materials and complex fluids. Here, we concentrate on one of the simplest experimental examples by reviewing different structural and dynamical properties of spread (Langmuir) monolayers. Our interest goes beyond an equilibrium description to stress experiments and models oriented to unveil dynamic responses either following relaxation or externally controlled forcing processes. We choose to focus on mesoscopic phenomena that reflect the pattern of self-assembly of the constituent molecules. We start by reviewing basic structural and textural aspects of Langmuir monolayers. Probably the most classical nonequilibrium phenomena one can envisage when referring to complex fluids concern flow properties. Thus, rheological experiments conducted with Langmuir monolayers are briefly commented next. Finally, new scenarios of collective self-organization are discussed from experiments and models, revealing unexplored dynamic self-assembling capabilities of Langmuir monolayers.
ISSN:0370-1573
1873-6270
DOI:10.1016/j.physrep.2007.02.016