His primary scientific interests are in Chromatography, Analytical chemistry, Porosity, Capillary action and Dispersion. His Chromatography research is multidisciplinary, relying on both Dispersion, Pulsed field gradient, Phase and Transport phenomena. His Analytical chemistry study integrates concerns from other disciplines, such as Concentration polarization, Electrophoresis, Electro-osmosis and Electrode.
Ulrich Tallarek combines subjects such as Eddy diffusion, Phase velocity, Particle-size distribution, Particle size and Packed bed with his study of Porosity. His Capillary action research is multidisciplinary, incorporating elements of Fluid dynamics, Mechanics, Monolith and Resolution. His Dispersion research is multidisciplinary, incorporating perspectives in Mineralogy and Porous medium.
Ulrich Tallarek mostly deals with Analytical chemistry, Porosity, Chromatography, Porous medium and Mechanics. His Analytical chemistry study combines topics in areas such as Concentration polarization, Capillary action, Chemical physics and Phase. His Porosity research incorporates elements of Particle-size distribution, Particle size, Pulsed field gradient, Mesoporous material and Packed bed.
He focuses mostly in the field of Chromatography, narrowing it down to topics relating to Eddy diffusion and, in certain cases, Macropore. The study incorporates disciplines such as Dispersion and Classical mechanics in addition to Mechanics. The Electrokinetic phenomena study combines topics in areas such as Nanoporous, Microfluidics and Electro-osmosis.
Ulrich Tallarek mainly focuses on Porosity, Chromatography, Mesoporous material, Mesoporous silica and Adsorption. Ulrich Tallarek interconnects Scanning electron microscope, Mechanics, Monolith and Particle size in the investigation of issues within Porosity. His Chromatography research includes elements of Particle-size distribution, Microstructure, Capillary action and Analytical chemistry.
His work deals with themes such as Surface diffusion, Reversed-phase chromatography, Phase and Acetone, which intersect with Analytical chemistry. The various areas that he examines in his Mesoporous material study include Chemical physics, Heterogeneous catalysis, Silica gel, Electron tomography and Effective diffusion coefficient. His work carried out in the field of Adsorption brings together such families of science as Composite material, Catalysis and Hydrophilic interaction chromatography.
His scientific interests lie mostly in Porosity, Chromatography, Porous medium, Monolith and Mesoporous material. Ulrich Tallarek combines topics linked to Scanning electron microscope with his work on Porosity. His Chromatography research includes themes of Surface diffusion, Molecular dynamics, Slurry, Capillary action and Microstructure.
His studies deal with areas such as Topology and Nanotechnology as well as Porous medium. His research in Monolith tackles topics such as Characterization which are related to areas like Catalysis, Sol-gel and Porous glass. His Phase research integrates issues from Mass transfer, Hydrophilic interaction chromatography, Silanol, Analytical chemistry and Diffusion.
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Chromatographic performance of monolithic and particulate stationary phases: Hydrodynamics and adsorption capacity
Felix C. Leinweber;Ulrich Tallarek.
Journal of Chromatography A (2003)
Characterization of Silica-Based Monoliths with Bimodal Pore Size Distribution
Felix C. Leinweber;Dieter Lubda;Karin Cabrera;Ulrich Tallarek.
Analytical Chemistry (2002)
Ionic conductance of nanopores in microscale analysis systems: Where microfluidics meets nanofluidics
Alexandra Höltzel;Ulrich Tallarek.
Journal of Separation Science (2007)
Random-close packing limits for monodisperse and polydisperse hard spheres.
Vasili Baranau;Ulrich Tallarek.
Soft Matter (2014)
Electroosmotic and Pressure-Driven Flow in Open and Packed Capillaries : Velocity Distributions and Fluid Dispersion
Ulrich Tallarek;Erdmann Rapp;Tom Scheenen;and Ernst Bayer.
Analytical Chemistry (2000)
Bipolar electrode focusing: simultaneous concentration enrichment and separation in a microfluidic channel containing a bipolar electrode.
Derek R. Laws;Dzmitry Hlushkou;Robbyn K. Perdue;Ulrich Tallarek.
Analytical Chemistry (2009)
Transition from creeping via viscous-inertial to turbulent flow in fixed beds.
Dzmitry Hlushkou;Ulrich Tallarek.
Journal of Chromatography A (2006)
Transient effects on microchannel electrokinetic filtering with an ion-permselective membrane.
Rahul Dhopeshwarkar;Richard M Crooks;Dzmitry Hlushkou;Ulrich Tallarek.
Analytical Chemistry (2008)
Influence of stagnant zones on transient and asymptotic dispersion in macroscopically homogeneous porous media
D. Kandhai;D. Hlushkou;Alfons G. Hoekstra;Peter M. A. Sloot.
Physical Review Letters (2002)
Morphology and separation efficiency of a new generation of analytical silica monoliths.
Kristof Hormann;Tibor Müllner;Stefan Bruns;Alexandra Höltzel.
Journal of Chromatography A (2012)
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