Microarray Chip and Method for Simultaneous and Highly Consistent Electroporation of Multiple Cells of Different Sizes

Abstract: Cell electroporation is an important cell manipulation technology to artificially transfer specific extracellular components into cells. However, the consistency of substance transport during the electroporation process is still an issue due to the wide size distribution of the natural cells. In this study, a cell electroporation microfluidic chip based on a microtrap array is proposed. The microtrap structure was optimized for single-cell capture and electric field focusing. The effects of the cell size on th… Show more

“…Additionally, they enable superior heat dissipation and continuous flow, which requires the effective processing of large volumes of cells, even at a single-cell level. Various designs of microelectrode chips, such as micro-needles, micro-posts, nanopores, interdigitated electrodes, and microtrap arrays, have been developed [13][14][15]. These innovations allow for precise electroporation control, facilitating high-throughput analysis from multicell to single-cell levels.…”

Microfluidic Electroporation Arrays for Investigating Electroporation-Induced Cellular Rupture Dynamics

“…Additionally, they enable superior heat dissipation and continuous flow, which requires the effective processing of large volumes of cells, even at a single-cell level. Various designs of microelectrode chips, such as micro-needles, micro-posts, nanopores, interdigitated electrodes, and microtrap arrays, have been developed [13][14][15]. These innovations allow for precise electroporation control, facilitating high-throughput analysis from multicell to single-cell levels.…”

Microfluidic Electroporation Arrays for Investigating Electroporation-Induced Cellular Rupture Dynamics