Microfluidics and Nanofluidics

Papers
(The H4-Index of Microfluidics and Nanofluidics is 19. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-03-01 to 2024-03-01.)
ArticleCitations
Microfluidic chips: recent advances, critical strategies in design, applications and future perspectives70
A concise review of microfluidic particle manipulation methods53
Acoustic streaming produced by sharp-edge structures in microfluidic devices43
Acoustic bubble-based bidirectional micropump43
Real-time sensors for live monitoring of disease and drug analysis in microfluidic model of proximal tubule40
Microfluidic-based cancer cell separation using active and passive mechanisms35
Miniaturization of fluorescence sensing in optofluidic devices29
Capillarity: revisiting the fundamentals of liquid marbles27
A practical microfluidic pump enabled by acoustofluidics and 3D printing26
Drop breakup in a symmetric T-junction microchannel under electric field24
Mixing mechanism of a straight channel micromixer based on light-actuated oscillating electroosmosis in low-frequency sinusoidal AC electric field24
Stability condition of self-organizing staggered particle trains in channel flow23
A miniaturized, DNA-FET biosensor-based microfluidic system for quantification of two breast cancer biomarkers23
Synthesis, characterization and dispersion stability of water-based Cu–CNT hybrid nanofluid without surfactant22
A variational approach applied to reduce fouling with the electroosmotic flow in porous-wall microchannels22
Obstacle-free planar hybrid micromixer with low pressure drop21
Nickel oxide nanoparticle synthesis and photocatalytic applications: evolution from conventional methods to novel microfluidic approaches20
Production of hydrogel microparticles in microfluidic devices: a review20
Electrochemiluminescence sensing of vitamin B12 using laser-induced graphene based bipolar and single electrodes in a 3D-printed portable system19
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