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A Review of Secondary Flow in Inertial Microfluidics [PDF]
Micromachines, 2020 Inertial microfluidic technology, which can manipulate the target particle entirely relying on the microchannel characteristic geometry and intrinsic hydrodynamic effect, has attracted great attention due to its fascinating advantages of high throughput,
Qianbin Zhao, Dan Yuan, Weihua Li
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Inertial Microfluidics Enabling Clinical Research [PDF]
Micromachines, 2021 Fast and accurate interrogation of complex samples containing diseased cells or pathogens is important to make informed decisions on clinical and public health issues.
Srivathsan Kalyan +2 more
exaly +8 more sources
Progress of Inertial Microfluidics in Principle and Application [PDF]
Sensors, 2018 Inertial microfluidics has become a popular topic in microfluidics research for its good performance in particle manipulation and its advantages of simple structure, high throughput, and freedom from an external field.
Yixuan Jia, Changku Sun
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Inertial microfluidics in contraction–expansion microchannels: A review [PDF]
Biomicrofluidics, 2021 Inertial microfluidics has brought enormous changes in the conventional cell/particle detection process and now become the main trend of sample pretreatment with outstanding throughput, low cost, and simple control method. However, inertial microfluidics in a straight microchannel is not enough to provide high efficiency and satisfying performance for ...
Di Jiang, Wenlai Tang, Di Huang
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Assessment of Lagrangian Modeling of Particle Motion in a Spiral Microchannel for Inertial Microfluidics [PDF]
Micromachines, 2018 Inertial microfluidics is a promising tool for a label-free particle manipulation for microfluidics technology. It can be utilized for particle separation based on size and shape, as well as focusing of particles.
Reza Rasooli, Barbaros Cetin
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Tape’n roll inertial microfluidics [PDF]
Sensors and Actuators A: Physical, 2019 Abstract Particle focusing and separation in microfluidic devices are critical for biological and medical applications. Inertial microfluidics is used for high throughput bio-particle focusing and separation. Most of the inertial microfluidic systems use planar structures for squeezing the particles in streams.
Mohammad Asghari +2 more
exaly +6 more sources
Editorial for the Special Issue on Inertial Microfluidics [PDF]
Micromachines, 2021 The growing demands for label-free, high throughput processing of biological, environmental, and industrial samples have instigated technical innovations for inflow particle manipulations with better resolution and purity [...]
Soojung Claire Hur, Wonhee Lee
doaj +5 more sources
Computational methods for inertial microfluidics: recent advances and future perspectives [PDF]
Microsystems & NanoengineeringNumerical modeling has played a pivotal role in advancing inertial microfluidics, tracing its development from inception and offering deeper insights into the microscale phenomena governing inertial focusing.
Giuseppe Lauricella +6 more
doaj +3 more sources
Numerical simulation of inertial microfluidics: a review
Engineering Applications of Computational Fluid Mechanics, 2023 Since the proposal of inertial microfluidics in 2007, it has been widely used for particle focusing and separation with superior performances. The particle migration behaviour in microchannel is extremely complicated involving various parameters ...
Ruiju Shi
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Particle focusing by 3D inertial microfluidics. [PDF]
Microsyst Nanoeng, 2017 AbstractThree-dimensional (3D) particle focusing in microfluidics is a fundamental capability with a wide range of applications, such as on-chip flow cytometry, where high-throughput analysis at the single-cell level is performed. Currently, 3D focusing is achieved mainly in devices with complex layouts, additional sheath fluids, and complex pumping ...
Paiè P +3 more
europepmc +6 more sources