Localization and glass formation of fluids confined in porous matrices

Kurzidim, Jan, Coslovich, Daniele, Kahl, Gerhard

14 December 2015

No description available.

Diffusion

Transport

diffusion

transport

ddc:530

A fractal based model of diffusion MRI in cortical grey matter

Hansen, Brian, Østergaard, Leif, Vestergaard-Poulsen, Peter

14 December 2015

Diffusion Weighted Magnetic Resonance (DWMR) Imaging is an important tool in diagnostic neuroimaging, but the biophysical basis of the DWMR signal from biological tissue is not entirely understood. Testable, theoretical models relating the DWMR signal to the tissue, therefore, are crucial. This work presents a toy version of such a model of water DWMR signals in brain grey matter. The model is based on biophysical characteristics and all model parameters are directly interpretable as biophysical properties such as diffusion coefficients and membrane permeability allowing comparison to known values. In the model, a computer generated Diffusion Limited Aggregation (DLA) cluster is used to describe the collected membrane morphology of the cells in cortical grey matter. Using credible values for all model parameters model output is compared to experimental DWMR data from normal human grey matter and it is found that this model does reproduce the observed signal. The model is then used for simulating the effect on the DWMR signal of cellular events known to occur in ischemia. These simulations show that a combination of effects is necessary to reproduce the signal changes observed in ischemic tissue and demonstrate that the model has potential for interpreting DWMR signal origins and tissue changes in ischemia. Further studies are required to validate these results and compare them with other modeling approaches. With such models, it is anticipated that sensitivity and specificity of DWMR in tissues can be improved, leading to better understanding of the origins of MR signals in biological tissues, and improved diagnostic capability.

Diffusion

Transport

diffusion

transport

ddc:530

Single molecule tracking of the molecular mobility in thinning liquid films on thermally grown SiO 2

Täuber, Daniela, Heidernätsch, Mario, Bauer, Michael, Radons, Günter, Schuster, Jörg, Borczyskowski, Christian von

14 December 2015

Diffusion coefficients obtained from weighted mean square displacements along probe molecule trajectories within ultrathin liquid TEHOS films show a correlation with film thickness. By studying cumulative distributions obtained with a time resolution of 20 ms, we could show that the diffusion is heterogeneous within our liquid films which consist of a few molecular layers only. We detected two components of the diffusion process, a slower and a faster one. Thinning of the film due to evaporation caused a slowdown of the whole diffusion process. But this resulted not from a slowdown in the two contributing components itself. Instead their relative contributions changed in favor for the slow component. We conclude that there is no pronounced difference in the diffusion coefficients attributed to the molecular layers 3 to 5 vertically above the substrate, but with the loss of upper layers along with the thinning process the concentration of probe molecules in the near surface region containing only one or two molecular layers is increased.

Diffusion

Transport

diffusion

transport

ddc:530

Investigations of solid liquid interfaces in ultra-thin liquid films via single particle tracking of silica particles

Trenkmann, Ines, Täuber, Daniela, Bauer, Michael, Schuster, Jörg, Bok, Sangho, Gangopadhyay, Shubhra, Borczyskowski, Christian von

14 December 2015

Single particle tracking with a wide field microscope is used to study the solid liquid interface between the viscous liquid tetrakis(2 ethylhexoxy)-silane and a silicon dioxide surface. Silicon dioxide nanoparticles (5 nm diameter) marked with the fluorescent dye rhodamine 6G are used as probes. The distributions of diffusion coefficients, obtained by mean squared displacements, reveal heterogeneities with at least two underlying diffusion components. Measurements on films with varying film thicknesses show that the slower component is independent of the film thickness, while the faster one increases with the film thickness. Additionally, we could show that the diffusion behavior of the particles cannot be sufficiently described by only two diffusion coefficients.

Diffusion

Transport

diffusion

transport

ddc:530

Translational diffusion in two-component lipid membranes close to phase transition

Ehrig, Jens, Petrov, Eugene, Schwille, Petra

14 December 2015

No description available.

Diffusion

Transport

diffusion

transport

ddc:530

Shear-flow mediated changes in DNA morphology

Günther, Katrin, Laube, Kristin, Mertig, Michael

14 December 2015

No description available.

Diffusion

Transport

diffusion

transport

ddc:530

An advanced method of tracking temporarily invisible particles in video imaging

Heidernätsch, Mario, Bauer, Michael, Täuber, Daniela, Radons, Günter, Borcyskowski, Christian von

15 December 2015

No description available.

Diffusion

Transport

diffusion

transport

ddc:530

DNA interaction with freestanding cationic lipid bilayers

Herold, Christoph, Petrov, Eugene P., Schwille, Petra

15 December 2015

No description available.

Diffusion

Transport

diffusion

transport

ddc:530

Fast MRI for spatially resolved quantitative information on molecular exchange

Lasič, Samo, Åslund, Ingrid, Topgaard, Daniel

15 December 2015

No description available.

Diffusion

Transport

diffusion

transport

ddc:530

Diffusion measured with scanning fluorescence correlation spectroscopy

Petrášek, Zdeněk, Derenko, Susan, Schwille, Petra

15 December 2015

No description available.

Diffusion

Transport

diffusion

transport

ddc:530