A set up for nanosecond pulsed electric field investigations on biological cells

This paper proposes and experimental and numerical analysis of a complete set-up to expose cell lines to nanosecond high voltage pulses. The system is composed by a nanopulses generator, based on microstrip line technology combined with photoconductive switches, and a standard electroporation cuvett...

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Hauptverfasser:	Kenaan, Mohamad, El-Amari, Saad, Merla, Caterina, Couderc, Vincent, Arnaud-Cormos, Delia, Leveque, Philippe, Danei, Federico, Apollonio, Francesca
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Applicators Electric fields Electrodes electroporation cuvette Generators high voltage measurement Nanobioscience nanoseconde generator Voltage measurement
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creator	Kenaan, Mohamad El-Amari, Saad Merla, Caterina Couderc, Vincent Arnaud-Cormos, Delia Leveque, Philippe Danei, Federico Apollonio, Francesca
description	This paper proposes and experimental and numerical analysis of a complete set-up to expose cell lines to nanosecond high voltage pulses. The system is composed by a nanopulses generator, based on microstrip line technology combined with photoconductive switches, and a standard electroporation cuvette. Voltage measurements on a 50 Ω generator able to deliver pulses of different shape and duration have been performed. While numerical analysis on the biological cuvette is proposed. Results highlight the suitability of the generator to deliver well-controlled pulse in term of duration shape and amplitude. For what concern the electrode cuvette, it results particularly suitable for working with quite long pulse (i.e. >;2ns). For shorter pulses (
doi_str_mv	10.1109/IPMHVC.2010.5958452
format	Conference Proceeding
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The system is composed by a nanopulses generator, based on microstrip line technology combined with photoconductive switches, and a standard electroporation cuvette. Voltage measurements on a 50 Ω generator able to deliver pulses of different shape and duration have been performed. While numerical analysis on the biological cuvette is proposed. Results highlight the suitability of the generator to deliver well-controlled pulse in term of duration shape and amplitude. For what concern the electrode cuvette, it results particularly suitable for working with quite long pulse (i.e. >;2ns). 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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Applicators Electric fields Electrodes electroporation cuvette Generators high voltage measurement Nanobioscience nanoseconde generator Voltage measurement
title	A set up for nanosecond pulsed electric field investigations on biological cells
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