Willfried Kunz
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View article: Fluid propagation and protein adsorption patterns in porous nitrocellulose membranes for lateral flow assays
Fluid propagation and protein adsorption patterns in porous nitrocellulose membranes for lateral flow assays Open
Lateral flow assays (LFAs) have caught new attention in recent years due to extensive use in the containment of the COVID-19 pandemic. Especially the protein and fluid interactions with the nitrocellulose membrane structure are yet to be f…
View article: Flow‐Induced Microfluidic Assembly for Advanced Biocatalysis Materials
Flow‐Induced Microfluidic Assembly for Advanced Biocatalysis Materials Open
Exploring the potential of microfluidic systems, this study presents a groundbreaking approach harnessing energy in microfluidic flows within a purpose‐built microreactor, enabling precise deposition of functional biomaterials. Upon optimi…
View article: Source data belonged to "Establishing structure-property linkages for wicking time predictions in porous polymeric membranes using a data-driven approach"
Source data belonged to "Establishing structure-property linkages for wicking time predictions in porous polymeric membranes using a data-driven approach" Open
This record contains all the necessary data to obtain the results of the study "Establishing structure-property linkages for wicking time predictions in porous polymeric membranes using a data-driven approach"
View article: Source data belonged to "Establishing structure-property linkages for wicking time predictions in porous polymeric membranes using a data-driven approach"
Source data belonged to "Establishing structure-property linkages for wicking time predictions in porous polymeric membranes using a data-driven approach" Open
This record contains all the necessary data to obtain the results of the study "Establishing structure-property linkages for wicking time predictions in porous polymeric membranes using a data-driven approach"
View article: Wicking in Porous Polymeric Membranes: Determination of an Effective Capillary Radius to Predict the Flow Behavior in Lateral Flow Assays
Wicking in Porous Polymeric Membranes: Determination of an Effective Capillary Radius to Predict the Flow Behavior in Lateral Flow Assays Open
The working principle of lateral flow assays, such as the widely used COVID-19 rapid tests, is based on the capillary-driven liquid transport of a sample fluid to a test line using porous polymeric membranes as the conductive medium. In or…
View article: Source data belonged to "Geometric flow control in lateral flow assays: Macroscopic single-phase modeling"
Source data belonged to "Geometric flow control in lateral flow assays: Macroscopic single-phase modeling" Open
This record contains all the necessary data to obtain the results of the study "Geometric flow control in lateral flow assays: Macroscopic single-phase modeling" (https://doi.org/10.1063/5.0093316).
View article: Source data belonged to "Geometric flow control in lateral flow assays: Macroscopic single-phase modeling"
Source data belonged to "Geometric flow control in lateral flow assays: Macroscopic single-phase modeling" Open
This record contains all the necessary data to obtain the results of the study "Geometric flow control in lateral flow assays: Macroscopic single-phase modeling" (https://doi.org/10.1063/5.0093316).
View article: Investigation of the microstructure adjustment by velocity variations during the directional solidification of Al-Ag-Cu with the phase-field method
Investigation of the microstructure adjustment by velocity variations during the directional solidification of Al-Ag-Cu with the phase-field method Open
Directional solidification is a favored process to manufacture homogeneous microstructures which lead to macroscopically unique properties for a material. The dependence of the spacing and type of the arising microstructure from the solidi…