2014
DOI: 10.1103/physreve.90.040501
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Single-molecule diffusion in freely suspended smectic films

Abstract: We present a study of the molecular diffusion in freely suspended smectic-A liquid crystal films with thicknesses ranging from 20 down to only two molecular layers. The molecular mobility is directly probed by determining the trajectories of single, fluorescent tracer molecules. We demonstrate, using several different smectic compounds, that a monotonic increase of the diffusion coefficient with decreasing film thickness is a general phenomenon. In two-layer films, the diffusion is enhanced by a factor of 3 to… Show more

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Cited by 17 publications
(16 citation statements)
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References 36 publications
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“…The calculated data on D b (N = 25), at T = 367 K (θ = 0.67) and d = 3.26 nm [55], for 25-layer partially fluorinated H10F5MOPP smectic film, gives ∼ 6 µm 2 /s. In turn, the experimentally obtained data on D b (N) (N = 25, 13, 11, 10), for 25-layer smectic film composed of 4-octyl-4 -cyanobiphenyl molecules, gives ∼ 3 µm 2 /s [56,57]. Hence, it has been obtained a good agreement between the theoretically predicted [53] and experimentally obtained [55] results."…”
Section: Translational and Orientational Diffusion Across The Smecticsupporting
confidence: 66%
“…The calculated data on D b (N = 25), at T = 367 K (θ = 0.67) and d = 3.26 nm [55], for 25-layer partially fluorinated H10F5MOPP smectic film, gives ∼ 6 µm 2 /s. In turn, the experimentally obtained data on D b (N) (N = 25, 13, 11, 10), for 25-layer smectic film composed of 4-octyl-4 -cyanobiphenyl molecules, gives ∼ 3 µm 2 /s [56,57]. Hence, it has been obtained a good agreement between the theoretically predicted [53] and experimentally obtained [55] results."…”
Section: Translational and Orientational Diffusion Across The Smecticsupporting
confidence: 66%
“…Computer simulations on LCs in thin film and pore geometry can give here important complementary insights [13,24,[41][42][43][44][45][46][47][48][49][50]. These studies indicate pronounced spatial heterogeneities, in particular interface-induced molecular layering and radial gradients both in the orientational order and reorientational dynamics in cylindrical pore geometry [51].…”
Section: Fig 1: (Color Online)mentioning
confidence: 99%
“…On the one hand, at a low molar fraction of spheres (x s = 0.01) the study basically explores the diffusion of isolated spheres in the smectic fluid of rods. Some fruitful incursions into the transport properties of this limiting case, in which the spheres can essentially be considered to be a tracer, have been performed in previous studies [25][26][27][28][29][30][31]. On the other hand, at the highest molar fraction of spheres included in our study (x s = 0.5), a lamellar phase is formed that is characterized by alternate layers of rods and spheres, and the fluid presents novel features with respect to the pure rod fluid.…”
Section: Introductionmentioning
confidence: 99%