E. Du, Ph.D.
Affiliations: | 2011 | Mechanical | Stevens Institute of Technology |
Area:
Mechanical Engineering, NanotechnologyGoogle:
"E. Du"Parents
Sign in to add mentor| Souran Manoochehri | grad student | 2011 | Stevens Institute of Technology | |
| (AC electrokinetic platform for manipulation of microfluids and micro/nanoparticles.) | ||||
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Publications
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| Liu J, Chesnokova O, Oleinikov I, et al. (2020) Optimization of in vitro trophoblast assay for real-time impedimetric sensing of trophoblast-erythrocyte interactions in Plasmodium falciparum malaria. Analytical and Bioanalytical Chemistry |
| Liu J, Qiang Y, Alvarez O, et al. (2019) Electrical impedance characterization of erythrocyte response to cyclic hypoxia in sickle cell disease. Acs Sensors |
| Qiang Y, Liu J, Yang F, et al. (2018) Modeling erythrocyte electrodeformation in response to amplitude modulated electric waveforms. Scientific Reports. 8: 10224 |
| Liu J, Qiang Y, Alvarez O, et al. (2018) Electrical impedance microflow cytometry with oxygen control for detection of sickle cells. Sensors and Actuators. B, Chemical. 255: 2392-2398 |
| Qiang Y, Liu J, Du E. (2018) Dielectrophoresis Testing of Nonlinear Viscoelastic Behaviors of Human Red Blood Cells. Micromachines. 9 |
| Li X, Du E, Dao M, et al. (2017) Patient-specific modeling of individual sickle cell behavior under transient hypoxia. Plos Computational Biology. 13: e1005426 |
| Du E, Diez-Silva M, Kato GJ, et al. (2015) Kinetics of sickle cell biorheology and implications for painful vasoocclusive crisis Proceedings of the National Academy of Sciences of the United States of America. 112: 1422-1427 |
| Du E, Dao M, Suresh S. (2014) Quantitative Biomechanics of Healthy and Diseased Human Red Blood Cells using Dielectrophoresis in a Microfluidic System. Extreme Mechanics Letters. 1: 35-41 |
| Du E, Ha S, Diez-Silva M, et al. (2013) Electric impedance microflow cytometry for characterization of cell disease states. Lab On a Chip. 13: 3903-9 |
| Du E, Manoochehri S. (2010) Optimal design of microgrooved channels with electrokinetic pumping for lab-on-a-chip applications. Iet Nanobiotechnology / Iet. 4: 40-9 |