Fundamentals and applications of inertial microfluidics: A review
In the last decade, inertial microfluidics has attracted significant attention and a wide variety
of channel designs that focus, concentrate and separate particles and fluids have been …
of channel designs that focus, concentrate and separate particles and fluids have been …
Channel innovations for inertial microfluidics
W Tang, S Zhu, D Jiang, L Zhu, J Yang, N Xiang - Lab on a Chip, 2020 - pubs.rsc.org
Inertial microfluidics has gained significant attention since first being proposed in 2007
owing to the advantages of simplicity, high throughput, precise manipulation, and freedom …
owing to the advantages of simplicity, high throughput, precise manipulation, and freedom …
Droplet-based microfluidics in biomedical applications
L Amirifar, M Besanjideh, R Nasiri, A Shamloo… - …, 2022 - iopscience.iop.org
Droplet-based microfluidic systems have been employed to manipulate discrete fluid
volumes with immiscible phases. Creating the fluid droplets at microscale has led to a …
volumes with immiscible phases. Creating the fluid droplets at microscale has led to a …
A review of sorting, separation and isolation of cells and microbeads for biomedical applications: microfluidic approaches
Several biomedical analyses are performed on particular types of cells present in body
samples or using functionalized microparticles. Success in such analyses depends on the …
samples or using functionalized microparticles. Success in such analyses depends on the …
Inertial microfluidics: current status, challenges, and future opportunities
N Xiang, Z Ni - Lab on a Chip, 2022 - pubs.rsc.org
Inertial microfluidics uses the hydrodynamic effects induced at finite Reynolds numbers to
achieve passive manipulation of particles, cells, or fluids and offers the advantages of high …
achieve passive manipulation of particles, cells, or fluids and offers the advantages of high …
Microfluidic‐based approaches in targeted cell/particle separation based on physical properties: fundamentals and applications
Cell separation is a key step in many biomedical research areas including biotechnology,
cancer research, regenerative medicine, and drug discovery. While conventional cell sorting …
cancer research, regenerative medicine, and drug discovery. While conventional cell sorting …
Progress of inertial microfluidics in principle and application
Y Gou, Y Jia, P Wang, C Sun - Sensors, 2018 - mdpi.com
Inertial microfluidics has become a popular topic in microfluidics research for its good
performance in particle manipulation and its advantages of simple structure, high …
performance in particle manipulation and its advantages of simple structure, high …
A review of secondary flow in inertial microfluidics
Inertial microfluidic technology, which can manipulate the target particle entirely relying on
the microchannel characteristic geometry and intrinsic hydrodynamic effect, has attracted …
the microchannel characteristic geometry and intrinsic hydrodynamic effect, has attracted …
Characterization and evaluation of 3D printed microfluidic chip for cell processing
Microfluidics has found ubiquitous presence in biological applications such as tissue
spheroid fabrication and pharmacology investigation. The increasing prevalence and …
spheroid fabrication and pharmacology investigation. The increasing prevalence and …
Hybrid microfluidics combined with active and passive approaches for continuous cell separation
Microfluidics, which is classified as either active or passive, is capable of separating cells of
interest from a complex and heterogeneous sample. Active methods utilise external fields …
interest from a complex and heterogeneous sample. Active methods utilise external fields …