<p>A schematic diagram of experimental setup for nsPEFs on Cal-27 cells. A) NsPEF generator; B) Pulse excitation region; C) 0.2 cm gap cuvette (Biosmith); D) The typical waveforms of nsPEFs; E) Circuit design for nsPEFs.</p
<p>nsPEF exposure of Jurkat cells (Human T cell leukemia, 2×10<sup>6</sup>/mL) to 50, 100 or 200 pul...
International audienceThis paper deals with the development of a microfluidic biochip for the exposu...
<p>Schematic diagram illustrating the experimental setup for FUS and microdialysis.</p
<p>(A) The photo of 100 ns nsPEFs generator used in this experiment. (B) The typical waveforms of ns...
The emergence of nanosecond pulsed electric fields (nsPEFs) for intracellular electro-manipulation e...
<p>(A) The nsPEF exposure and imaging experimental set-up. An EC Plan-Neofluar 40×/1.3 DIC-oil Zeiss...
International audienceThis paper describes nanosecond electric pulse generator and applicator for bi...
<p>Schematic illustration of two-chambered MFC for bioelectricity generation.</p
International audienceThis paper proposes and experimental and numerical analysis of a complete set-...
<p>Schematic diagram of experimental devices including four treatments of SMFC-o, SMFC-c, P-SMFC-o, ...
International audienceThe application of nanosecond pulse electric field on biological cells produce...
Microdosimetric models for biological cells have assumed increasing significance in the development ...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
<p>(A) Representative waveform of a 5 ns, 8 MV/m pulse. The inset shows the simulated E-field distri...
Electroporation is a pulsed electric field triggered phenomenon of cell permeabilization, which is e...
<p>nsPEF exposure of Jurkat cells (Human T cell leukemia, 2×10<sup>6</sup>/mL) to 50, 100 or 200 pul...
International audienceThis paper deals with the development of a microfluidic biochip for the exposu...
<p>Schematic diagram illustrating the experimental setup for FUS and microdialysis.</p
<p>(A) The photo of 100 ns nsPEFs generator used in this experiment. (B) The typical waveforms of ns...
The emergence of nanosecond pulsed electric fields (nsPEFs) for intracellular electro-manipulation e...
<p>(A) The nsPEF exposure and imaging experimental set-up. An EC Plan-Neofluar 40×/1.3 DIC-oil Zeiss...
International audienceThis paper describes nanosecond electric pulse generator and applicator for bi...
<p>Schematic illustration of two-chambered MFC for bioelectricity generation.</p
International audienceThis paper proposes and experimental and numerical analysis of a complete set-...
<p>Schematic diagram of experimental devices including four treatments of SMFC-o, SMFC-c, P-SMFC-o, ...
International audienceThe application of nanosecond pulse electric field on biological cells produce...
Microdosimetric models for biological cells have assumed increasing significance in the development ...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
<p>(A) Representative waveform of a 5 ns, 8 MV/m pulse. The inset shows the simulated E-field distri...
Electroporation is a pulsed electric field triggered phenomenon of cell permeabilization, which is e...
<p>nsPEF exposure of Jurkat cells (Human T cell leukemia, 2×10<sup>6</sup>/mL) to 50, 100 or 200 pul...
International audienceThis paper deals with the development of a microfluidic biochip for the exposu...
<p>Schematic diagram illustrating the experimental setup for FUS and microdialysis.</p
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