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A Minireview on Inertial Microfluidics Fundamentals: Inertial Particle Focusing and Secondary Flow
Biochip Journal, 2019In 1961, Segre and Silberberg first reported the tubular pinch effect and numerous theoretical studies were subsequently published to explain the inertial particle migration phenomenon. Presently, as fluid mechanics meets micro- and nanotechnology, theoretical studies on intrinsic particle migration and flow phenomena associated with inertia are being ...
Aram J Chung
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Controllable trajectory of inertial focusing in microfluidics
Microelectronic Engineering, 2015Inertial focusing in microfluidics has been widely utilized to sort cells based on cell specific properties for clinical assay, the detection of environmental pathogenic microorganisms and cell biology research. Especially, cell inertial focusing in microchannels, containing slant groove structures, has been utilized for cell separation, enrichment and
Heng Zou, Weiliang Zhong
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Fabricating Shaped Microfibers with Inertial Microfluidics
Advanced Materials, 2014Janine K Nunes +2 more
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Channel innovations for inertial microfluidics
Lab on a Chip, 2020A review discussing the channel innovations for inertial microfluidics.
Wenlai Tang +5 more
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Lab on a Chip, 2014
Microfluidics has experienced massive growth in the past two decades, and especially with advances in rapid prototyping researchers have explored a multitude of channel structures, fluid and particle mixtures, and integration with electrical and optical systems towards solving problems in healthcare, biological and chemical analysis, materials ...
Amini, H Amini, Hamed +2 more
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Microfluidics has experienced massive growth in the past two decades, and especially with advances in rapid prototyping researchers have explored a multitude of channel structures, fluid and particle mixtures, and integration with electrical and optical systems towards solving problems in healthcare, biological and chemical analysis, materials ...
Amini, H Amini, Hamed +2 more
openaire +3 more sources
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.
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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
Inertial Microfluidic Syringe Cell Concentrator
Analytical Chemistry, 2018Low-cost, easy-to-use cell concentration tools are in urgent demand for biomedical diagnosis in resource-poor settings. Herein, we propose a novel inertial microfluidic syringe cell (IMSC) concentrator that employs inertial focusing to increase cell concentration through ordering the cell and removing the cell-free fluid.
Nan Xiang +5 more
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Malaria detection using inertial microfluidics
Lab on a Chip, 2015Diagnosis of malaria at the early stage of infection is challenging due to the difficulty in detecting low abundance parasites from blood.
Majid E. Warkiani +5 more
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Inertial Microfluidic Purification of CAR‐T‐Cell Products
Advanced Biology, 2021AbstractChimeric antigen receptor T (CAR‐T) cell therapy is rapidly becoming a frontline cancer therapy. However, the manufacturing process is time‐, labor‐ and cost‐intensive, and it suffers from significant bottlenecks. Many CAR‐T products fail to reach the viability release criteria set by regulators for commercial cell therapy products.
Mona T. Elsemary +8 more
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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
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