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Literature DB >> 16768487

Droplet growth and transition to coalescence in confined geometries.

Peter A Kottke¹, Audric Saillard, Andrei G Fedorov.

Abstract

A thermodynamic theory is developed to predict growth, rearrangement to a close-packed ensemble, and transition to a deformed or coalesced state for droplets in a confined space. For the close-packed configuration, analysis of forced interactions between confined droplets yields analytical criteria for predicting whether droplets will deform and if they will coalesce. Relevant nondimensional parameters are identified to generalize results in terms of energy barrier maps, and their use for predicting interacting droplet behavior is described.

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Mercury

Year: 2006 PMID： 16768487 PMCID： PMC2533810 DOI： 10.1021/la0603267

Source DB: PubMed Journal: Langmuir ISSN： 0743-7463 Impact factor: 3.882

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References

8 in total

Droplet growth and transition to coalescence in confined geometries.

1. Interaction between deformable Brownian droplets.

2. Growth of breath figures.

3. Controlled production of monodisperse double emulsions by two-step droplet breakup in microfluidic devices.

4. Utilization of cell-sized lipid containers for nanostructure and macromolecule handling in microfabricated devices.

5. Using microfluidics to observe the effect of mixing on nucleation of protein crystals.

6. Fabrication of a potentiometric/amperometric bifunctional enzyme microbiosensor.

7. Drainage and Coalescence in Standing Foams

8. Scanning electrochemical microscopy. 48. Hg/Pt hemispherical ultramicroelectrodes: fabrication and characterization.