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36 results on '"Derzsi, Ladislav"'

1. Emulsions in microfluidic channels with asymmetric boundary conditions and directional surface roughness: stress and rheology

Author

Pelusi, Francesca, Filippi, Daniele, Derzsi, Ladislav, Pierno, Matteo, and Sbragaglia, Mauro

Subjects
Physics - Fluid Dynamics, Condensed Matter - Soft Condensed Matter
Abstract

The flow of emulsions in confined microfluidic channels is affected by surface roughness. Directional roughness effects have recently been reported in channels with asymmetric boundary conditions featuring a flat wall, and a wall textured with a directional roughness, the latter promoting a change in the velocity profiles when the flow direction of emulsions is inverted [D. Filippi et al., Adv. Mater. Technol. 8, 2201748 (2023)]. An operative protocol is needed to reconstruct the stress profile inside the channel from velocity data to shed light on the trigger of the directional response. To this aim, we performed lattice Boltzmann numerical simulations of the flow of model emulsions with a minimalist model of directional roughness in two dimensions: a confined microfluidic channel with one flat wall and the other patterned by right-angle triangular-shaped posts. Simulations are essential to develop the protocol based on mechanical arguments to reconstruct stress profiles. Hence, one can analyze data to relate directional effects in velocity profiles to different rheological responses close to the rough walls associated with opposite flow directions. We finally show the universality of this protocol by applying it to other realizations of directional roughness by considering experimental data on emulsions in a microfluidic channel featured with a flat wall and a wall textured by herringbone-shaped roughness., Comment: 9 pages, 6 figures

Published
2023

3. Fluidization and wall slip of soft-glassy materials by controlled surface roughness

Author

Derzsi, Ladislav, Filippi, Daniele, Mistura, Giampaolo, Pierno, Matteo, Lulli, Matteo, Sbragaglia, Mauro, Bernaschi, Massimo, and Garstecki, Piotr

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

The motion of soft-glassy materials (SGM) in a confined geometry is strongly impacted by surface roughness. However, the effect of the spatial distribution of the roughness remains poorly understood from a more quantitative viewpoint. Here we present a comprehensive study of concentrated emulsions flowing in microfluidic channels, one wall of which is patterned with micron-size equally spaced grooves oriented perpendicularly to the flow direction. We show that roughness-induced fluidization can be quantitatively tailored by systematically changing both the width and separation of the grooves. We find that a simple scaling law describes such fluidization as a function of the density of grooves, suggesting common scenarios for droplet trapping and release. Numerical simulations confirm these views and are used to elucidate the relation between fluidization and the rate of plastic rearrangements., Comment: 4 Figures. Supplementary Material. 2 Movies

Published
2016
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6. Block-and-break generation of microdroplets with fixed volume

Author

van Steijn, Volkert, Korczyk, Piotr M, Derzsi, Ladislav, Abate, Adam R, Weitz, David A, and Garstecki, Piotr

Subjects
Fluid Mechanics and Thermal Engineering, Engineering, Biotechnology, biomedical equipment, bioMEMS, drops, microchannel flow, two-phase flow, Classical Physics, Interdisciplinary Engineering, Nanotechnology, Nanoscience & Nanotechnology, Fluid mechanics and thermal engineering
Abstract

We introduce a novel type of droplet generator that produces droplets of a volume set by the geometry of the droplet generator and not by the flow rates of the liquids. The generator consists of a classic T-junction with a bypass channel. This bypass directs the continuous fluid around the forming droplets, so that they can fill the space between the inlet of the dispersed phase and the exit of the bypass without breaking. Once filled, the dispersed phase blocks the exit of the bypass and is squeezed by the continuous fluid and broken off from the junction. We demonstrate the fixed-volume droplet generator for (i) the formation of monodisperse droplets from a source of varying flow rates, (ii) the formation of monodisperse droplets containing a gradation of solute concentration, and (iii) the parallel production of monodisperse droplets.

Published
2013

7. Opto-hydrodynamic tweezers.

Author

Vasantham, Shreyas, Kotnala, Abhay, Promovych, Yurii, Garstecki, Piotr, and Derzsi, Ladislav

Subjects
OPTICAL flow, OPTICAL tweezers, FLOW velocity, DRAG force, LIGHT scattering, OPTICAL fibers
Abstract

Optical fiber tweezers offer a simple, low-cost and portable solution for non-invasive trapping and manipulation of particles. However, single-fiber tweezers require fiber tip modification (tapering, lensing, etc.) and the dual-fiber approach demands strict alignment and positioning of fibers for robust trapping of particles. In addition, both tweezing techniques offer a limited range of particle manipulation and operate in low flow velocity regimes (a few 100 μm s−1) when integrated with microfluidic devices. In this paper, we report a novel opto-hydrodynamic fiber tweezers (OHT) platform that exploits the balance between the hydrodynamic drag force and optical scattering forces to trap and manipulate single or multiple particles of various shapes, sizes, and material compositions in a microfluidic channel. 3D hydrodynamic flow focusing offers an easy and dynamic alignment of the particle trajectories with the optical axis of the fiber, which enables robust trapping of particles with high efficiency of >70% and throughput of 14 particles per minute (operating flow velocity: 1000 μm s−1) without the need for precision stages or complex fabrication. By regulating the optical power and flow rates, we were able to trap single particles at desired positions in the channel with a precision of ±10 μm as well as manipulate them over a long range upstream or downstream with a maximum distance of 500 μm. Our opto-hydrodynamic tweezers offer an alternative to conventional optical fiber tweezers for several applications in physics, biology, medicine, etc. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Opto-Hydrodynamic Tweezers

Author

Vasantham, Shreyas, primary, Kotnala, Abhay, additional, Promovych, Yurii, additional, Garstecki, Piotr, additional, and Derzsi, Ladislav, additional

Published
2023
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15. TMAO, a seafood-derived molecule, produces diuresis and reduces mortality in heart failure rats

Author

Gawrys-Kopczynska, Marta, primary, Konop, Marek, additional, Maksymiuk, Klaudia, additional, Kraszewska, Katarzyna, additional, Derzsi, Ladislav, additional, Sozanski, Krzysztof, additional, Holyst, Robert, additional, Pilz, Marta, additional, Samborowska, Emilia, additional, Dobrowolski, Leszek, additional, Jaworska, Kinga, additional, Mogilnicka, Izabella, additional, and Ufnal, Marcin, additional

Published
2020
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16. Author response: TMAO, a seafood-derived molecule, produces diuresis and reduces mortality in heart failure rats

Author

Gawrys-Kopczynska, Marta, primary, Konop, Marek, additional, Maksymiuk, Klaudia, additional, Kraszewska, Katarzyna, additional, Derzsi, Ladislav, additional, Sozanski, Krzysztof, additional, Holyst, Robert, additional, Pilz, Marta, additional, Samborowska, Emilia, additional, Dobrowolski, Leszek, additional, Jaworska, Kinga, additional, Mogilnicka, Izabella, additional, and Ufnal, Marcin, additional

Published
2020
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20. Abstract P3021: Trimethylamine but Not Trimethylamine N-Oxide Increases Blood Pressure in Rats, Affects Viability of Vascular Smooth Muscle Cells and Degrades Protein Structure

Author

Konop, Marek, primary, Jaworska, Kinga, additional, Bielinska, Klaudia, additional, Bielak-Zmijewska, Anna, additional, Mosieniak, Grazyna, additional, Sikora, Ewa, additional, Pilz, Marta, additional, Derzsi, Ladislav, additional, Sozanski, Krzysztof, additional, Holyst, Robert, additional, and Ufnal, Marcin, additional

Published
2019
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36. Microfluidic traps for hard-wired operations on droplets

Author

Slawomir Jakiela, Ladislav Derzsi, Piotr Garstecki, Piotr M. Korczyk, Korczyk, Piotr M, Derzsi, Ladislav, Jakiela, Slawomir, and Garstecki, Piotr

Subjects
Engineering, business.industry, 010401 analytical chemistry, Microfluidics, Biomedical Engineering, Bioengineering, 02 engineering and technology, General Chemistry, Microfluidic Analytical Techniques, incubation, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Capillary number, 0104 chemical sciences, Systems Integration, Physics::Fluid Dynamics, Hydrodynamics, Electronic engineering, microfluidic modules, microorganisms, 0210 nano-technology, business, Merge (version control)
Abstract

We present microfluidic modules (traps) that allow us to lock, shift, dose and merge micro-aliquots of liquid precisely. The precision is hard-wired into the geometry of the device: small values of the capillary number guarantee reproducibility of operation over a range of rates of flow that need not be controlled precisely. The modules can be integrated into systems that perform complicated protocols on micro-droplets while not requiring precision in forcing the flow. Refereed/Peer-reviewed

Published
2013
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