Difference between revisions of "Surface Morphology of Drying Latex Films: Multiple Ring Formation"
(→Summary) |
(→Summary) |
||
| Line 10: | Line 10: | ||
==Summary== | ==Summary== | ||
| + | [[Image:Shmuylovich fig1a.jpg|center|thumb|upright=3.5|Rings formed by the evaporation of a solution containing 0.88 um particles. The drop volume is written below each image, while the outer ring diameter is written above.]] | ||
The experiment was simple: a small drop of a monodisperse solution of particles (either 0.008% (w/w) solution of 0.88 um diameter particles, or 0.01% solution of 3.15 um particles) was placed on a glass microscope slide. The drying process was then captured on camera. As the solution evaporated it formed concentric rings of particle arrays. | The experiment was simple: a small drop of a monodisperse solution of particles (either 0.008% (w/w) solution of 0.88 um diameter particles, or 0.01% solution of 3.15 um particles) was placed on a glass microscope slide. The drying process was then captured on camera. As the solution evaporated it formed concentric rings of particle arrays. | ||
| − | [[Image:Shmuylovich | + | [[Image:Shmuylovich fig4a.jpg|thumb|The "pinning" and "un-pinning" of the contact line of the solution with 0.88 um particles. Insets show two histograms: one of the distances traversed between "sticking events", and one of the time between pinning events.]] |
| + | |||
| + | It was observed that a larger drops size produced more rings that covered a wider area. Using solutions of larger particles decreased the number of rings, but did not have a significant effect on the diameter of the outer rings. Studying the dynamics of the contact line during liquid evaporation revealed that the motion is not continuous. Rather, the contact line became "pinned" and unable to move for periods of time, with different parts of the same ring being able to be pinned and unpinned at the same time. | ||
==Soft Matter Aspects== | ==Soft Matter Aspects== | ||
Revision as of 01:43, 5 December 2009
step back fool! this page is being edited!
Reference
Surface morphology of drying latex films: multiple ring formation
Shmuylovich L, Shen AQ, Stone HA
Langmuir 18: 3441-3445 (2002)
Summary
The experiment was simple: a small drop of a monodisperse solution of particles (either 0.008% (w/w) solution of 0.88 um diameter particles, or 0.01% solution of 3.15 um particles) was placed on a glass microscope slide. The drying process was then captured on camera. As the solution evaporated it formed concentric rings of particle arrays.
It was observed that a larger drops size produced more rings that covered a wider area. Using solutions of larger particles decreased the number of rings, but did not have a significant effect on the diameter of the outer rings. Studying the dynamics of the contact line during liquid evaporation revealed that the motion is not continuous. Rather, the contact line became "pinned" and unable to move for periods of time, with different parts of the same ring being able to be pinned and unpinned at the same time.
