Analytical modelling and numerical simulations for microfluidic chip enabling accurate sheathless impedance spectroscopy-Reference-Cited by-同舟云学术

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Analytical modelling and numerical simulations for microfluidic chip enabling accurate sheathless impedance spectroscopy

Published:2024-01-18 Issue:1 Volume:40 Page:165-179
ISSN:2446-4732
Container-title:Research on Biomedical Engineering
language:en
Short-container-title:Res. Biomed. Eng.

Author:

Sherif Sameh^ORCID,Ziko Laila,Abdelraheem Omnia Mahmoud,Elgamal Muhammad,Ghallab Yehya H.,Ismail Yahya

Publisher

Springer Science and Business Media LLC

Link

https://link.springer.com/content/pdf/10.1007/s42600-024-00337-8.pdf

Reference20 articles.

1. Aslam MA, Riaz K, Saleem MM. Gradient-based impedance synthesis for breast and lung cancer cell screening deploying planar and nano-structured electrodes. Med Biol Eng Comput. 2021; https://doi.org/10.1007/S11517-021-02382-2.

2. Buendia R, Seoane F, Lindecrantz K, Bosaeus I, Gil-Pita R, Johannsson G, Ellegård L, Ward LC. Estimation of body fluids with bioimpedance spectroscopy: state of the art methods and proposal of novel methods. Physiol Meas. 2015;36:2171–87. https://doi.org/10.1088/0967-3334/36/10/2171.

3. Caselli F, De Ninno A, Reale R, Businaro L, Bisegna P. A novel wiring scheme for standard chips enabling high-accuracy impedance cytometry. Sens Actuators B Chem. 2018;256:580–9. https://doi.org/10.1016/J.SNB.2017.10.113.

4. Caselli F, Reale R, Nodargi NA, Bisegna P. Numerical investigation of a novelwiring scheme enabling simple and accurate impedance cytometry. Micromachines (Basel). 2017:8. https://doi.org/10.3390/mi8090283.

5. Chawla K, Bürgel SC, Schmidt GW, Kaltenbach H-M, Rudolf F, Frey O, Hierlemann A. Integrating impedance-based growth-rate monitoring into a microfluidic cell culture platform for live-cell microscopy. Microsyst Nanoeng. 2018;4:1–12. https://doi.org/10.1038/s41378-018-0006-5.

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