Results 151 to 160 of about 9,663 (182)
Some of the next articles are maybe not open access.
Lab on a Chip, 2009
Despite the common wisdom that inertia does not contribute to microfluidic phenomena, recent work has shown a variety of useful effects that depend on fluid inertia for applications in enhanced mixing, particle separation, and bioparticle focusing.
openaire +2 more sources
Despite the common wisdom that inertia does not contribute to microfluidic phenomena, recent work has shown a variety of useful effects that depend on fluid inertia for applications in enhanced mixing, particle separation, and bioparticle focusing.
openaire +2 more sources
Recent progress of inertial microfluidic-based cell separation
The Analyst, 2021A comprehensive review of recent progress in inertial microfluidics with special focus on multistage cell separation and detection devices in addition to straight and curved channels.
Xuefeng Xu +10 more
openaire +2 more sources
Inertial Microfluidics-Based Cell Sorting
BioChip Journal, 2018Inertial microfluidics has attracted significant attention in recent years due to its superior benefits of high throughput, precise control, simplicity, and low cost. Many inertial microfluidic applications have been demonstrated for physiological sample processing, clinical diagnostics, and environmental monitoring and cleanup.
Ga-Yeong Kim, Jong-In Han, Je-Kyun Park
openaire +1 more source
Inertial microfluidics for flow cytometry
SPIE Proceedings, 2010Inertial components of the Navier-Stokes equations are usually not considered in microfluidic flows but have recently been shown to be of great practical use for continuous manipulation of particles and cells. After introducing the physical basis of the counter-intuitive self focusing of particles in a single inlet flow, I will discuss our current ...
openaire +1 more source
Control of inertial microfluidics
2015The young field of inertial microfluidics investigates fluid inertia to enhance the performance of microfluidic devices. The scope of inertial microfluidics expanded rapidly to cover a diverse set of applications, after the first devices were proposed in the early 2000s.
openaire +1 more source
Continuous scalable blood filtration device using inertial microfluidics
Biotechnology and Bioengineering, 2010AbstractCell separation is broadly useful for applications in clinical diagnostics, biological research, and potentially regenerative medicine. Recent attention has been paid to label‐free size‐based techniques that may avoid the costs or clogging issues associated with centrifugation and mechanical filtration. We present for the first time a massively
Albert J, Mach, Dino, Di Carlo
openaire +2 more sources
Inertial Microfluidic Cell Separation
2016The ability to rapidly manipulate cells within microfluidic devices has been a fascinating goal for engineers across disciplines over the past two decades. With highly controllable flows and the ability to create microstructures on the same scale as cells, a large variety of technologies to sort and separate cells have been rapidly developed.
openaire +1 more source
Particle dynamics in inertial microfluidics
2020Die inertiale Mikrofluidik beschäftigt sich mit laminaren Strömungen von Flüssigkeiten durch mikroskopische Kanäle, bei denen die Trägheitseffekte der Flüssigkeit nicht vernachlässigt werden können. Befinden sich Teilchen in diesen inertialen Strömungen, ordnen sie sich von selbst an bestimmten Positionen auf der Querschnittsfläche an.
openaire +1 more source
Elasto‐inertial particle focusing in sinusoidal microfluidic channels
ELECTROPHORESISAbstractDean flow existing in sinusoidal channels could enhance the throughput and efficiency for elasto‐inertial particle focusing. However, the fundamental mechanisms of elasto‐inertial focusing in sinusoidal channels are still unclear. This work employs four microfluidic devices with symmetric and asymmetric sinusoidal channels to explore the elasto‐
Dalin Chen +3 more
openaire +2 more sources