Milad Saadat scite author profile

Magnetic levitation (MagLev) is a user‐friendly, electricity‐free, accurate, affordable, and label‐free platform for chemical and biological applications owing to its ability to suspend and separate a wide range of diamagnetic materials (e.g., plastics, polymers, cells, and proteins) based on their density. Various MagLev designs (e.g., standard, single and double ring, titled, and rotational MagLev setups) are presented in the literature with a trade‐off between sensitivity and detection range. Herein, various MagLev designs, the advantages and pitfalls of each method, and current challenges encountered by MagLev platforms are reviewed. Moreover, end applications of MagLev are presented in single‐cell and protein analysis, diseases diagnosis (e.g., cancer and hepatitis C), tissue engineering, 3D self‐assembly, and forensic case studies to provide an insight regarding the potentials of MagLev.

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Numerical investigation on mixing intensification of ferrofluid and deionized water inside a microchannel using magnetic actuation generated by embedded microcoils for lab-on-chip systems

Saadat

Shafii

Ghassemi

2020

Chemical Engineering and Processing - Process Intensification

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Data-driven selection of constitutive models via rheology-informed neural networks (RhINNs)

2022

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Numerical investigation on the effect of external varying magnetic field on the mixing of ferrofluid with deionized water inside a microchannel for lab-on-chip systems

Saadat

Ghassemi

Shafii

2020

Energy Sources, Part A: Recovery, Utilization, and Environmenta

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Milad Saadat

Biomedical Applications of Magnetic Levitation

Numerical investigation on mixing intensification of ferrofluid and deionized water inside a microchannel using magnetic actuation generated by embedded microcoils for lab-on-chip systems

Data-driven selection of constitutive models via rheology-informed neural networks (RhINNs)

Numerical investigation on the effect of external varying magnetic field on the mixing of ferrofluid with deionized water inside a microchannel for lab-on-chip systems

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