<p>(a) represented the TMV simulation region. In 7(b), the red, black, and the green curves represented the TMV under the nanosecond pulse, the microsecond pulse, and the nanosecond/microsecond pulse combination respectively.</p
<p>(<b>A</b>) Schematic of the micro-electroporation channel with model domain and radially-varying ...
Cell response to sub-microsecond pulsed electric fields (sm-PEF) is examined using an equivalent cir...
A numerical model, usually employed to analyze the electroporation phenomenon in eukaryotic cells ex...
<p>Nanosecond pulse results were shown in (a), the microsecond pulse in (b), and the pulse combinati...
<p>(a-c) Two-dimensional pore density distributions along the surface of the two cell membranes. (d)...
Traditionally, microsecond pulsed electric field was widely used in cell electrofusion technology. H...
An electric pulse with a sufficient amplitude can lead to electroporation of intracellular organelle...
As the initial antibody technology, the preparation of hybridoma cells has been widely used in disco...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
<p>100-ns-long strong field pulse induced many tiny pores in the cell membrane, particularly in the ...
Over the past decades, the effects of ultrashort-pulsed electric fields have been used to investigat...
Electrofusion is an efficient method for fusing cells using short-duration high-voltage electric pul...
A phenomenon of bipolar cancellation stands for the suppression of bioeffects of nanosecond electric...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
<p>(A) Cell trapping and pairing under positive-DEP force. (B) The electric field distribution in th...
<p>(<b>A</b>) Schematic of the micro-electroporation channel with model domain and radially-varying ...
Cell response to sub-microsecond pulsed electric fields (sm-PEF) is examined using an equivalent cir...
A numerical model, usually employed to analyze the electroporation phenomenon in eukaryotic cells ex...
<p>Nanosecond pulse results were shown in (a), the microsecond pulse in (b), and the pulse combinati...
<p>(a-c) Two-dimensional pore density distributions along the surface of the two cell membranes. (d)...
Traditionally, microsecond pulsed electric field was widely used in cell electrofusion technology. H...
An electric pulse with a sufficient amplitude can lead to electroporation of intracellular organelle...
As the initial antibody technology, the preparation of hybridoma cells has been widely used in disco...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
<p>100-ns-long strong field pulse induced many tiny pores in the cell membrane, particularly in the ...
Over the past decades, the effects of ultrashort-pulsed electric fields have been used to investigat...
Electrofusion is an efficient method for fusing cells using short-duration high-voltage electric pul...
A phenomenon of bipolar cancellation stands for the suppression of bioeffects of nanosecond electric...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
<p>(A) Cell trapping and pairing under positive-DEP force. (B) The electric field distribution in th...
<p>(<b>A</b>) Schematic of the micro-electroporation channel with model domain and radially-varying ...
Cell response to sub-microsecond pulsed electric fields (sm-PEF) is examined using an equivalent cir...
A numerical model, usually employed to analyze the electroporation phenomenon in eukaryotic cells ex...
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