Yagmur Yildizhan

TL;DR: This approach successfully removed the dead monocytes while preserving the viability of the live monocytes and will reduce the dead-cell contamination risk and achieve more reliable and accurate test results when blood analyses and disease diagnosis are performed with enriched, live monocyte populations.

TL;DR: 3D carbon‐electrode dielectrophoresis (carbon‐DEP) is presented as a separation tool for U937 monocytes and U 937 monocyte‐differentiated macrophages and advanced the usability and throughput of DEP separation, presented wider electrochemical stability.

TL;DR: In this paper, the authors used recombinant EVs (rEVs) for the first time as a biological reference material in developing a fiber optic surface plasmon resonance (FO-SPR) bioassay.

TL;DR: Numerical analysis for dielectrophoretic characterization of red blood cells, T-lymphocytes, B-LYmphocytes and monocytes is presented, which quantitatively incorporate with the membrane features of these cells to provide more insight into their dielectophoretic responses.

TL;DR: The results present that when 10 Vpp electric field is applied, the fluorescent-labeled cells experienced the crossover frequency at 8–10 kHz, whereas the label-free cells exhibited at 16–18 kHz.