International audienceIn this study, a microwave biosensor based on interdigitated electrode layout is evaluated as an on-chip electroporation system applicable to electroporation of adherent cell monolayers. The present device is designed in a manner that allows electrical microwave spectroscopy measurements in subsequent studies. We demonstrate the applicability of our device for electroporation-mediated molecule transfer of adherent cells in standard laboratory conditions. Application of electric pulses (6 V, 100 µs, 1 Hz) to the cells induces successful delivery of a fluorescent probe (∼98%), while maintaining a high viability rate (∼100%). The comparable delivery rate to existing systems along with the improved viability suggest that ...
Electroporation (EP) of biological cells leads to the exchange of materials through the permeabilize...
In recent years, several publications on microfluidic devices have focused on the process of electro...
In recent years, several publications on microfluidic devices have focused on the process of electro...
International audienceIn this study, a microwave biosensor based on interdigitated electrode layout ...
International audienceThis paper demonstrates the efficient use of microwave dielectric spectroscopy...
International audienceThis paper presents the monitoring of single cells subjected to electroporatio...
International audienceThis paper presents a 40 GHz microwave biosensor used to monitor and character...
This paper discusses microwave-induced electroporation as a promising alternative to conventional tr...
International audienceThis paper presents an innovative biosensing technique, based on the interacti...
International audienceThis paper presents the capabilities of microwave dielectric spectroscopy for ...
In this study, a new microelectrode assembly based on spiral geometry applicable to in situ electrop...
International audienceThis paper illustrates the potential of microwave frequencies for biological a...
International audienceThis paper illustrates the interest of analyzing electroporated cells with mic...
Electroporation (EP) is currently a widely used bio-technique for delivery of drugs, or macromolecul...
Electroporation (EP) of biological cells leads to the exchange of materials through the permeabilize...
In recent years, several publications on microfluidic devices have focused on the process of electro...
In recent years, several publications on microfluidic devices have focused on the process of electro...
International audienceIn this study, a microwave biosensor based on interdigitated electrode layout ...
International audienceThis paper demonstrates the efficient use of microwave dielectric spectroscopy...
International audienceThis paper presents the monitoring of single cells subjected to electroporatio...
International audienceThis paper presents a 40 GHz microwave biosensor used to monitor and character...
This paper discusses microwave-induced electroporation as a promising alternative to conventional tr...
International audienceThis paper presents an innovative biosensing technique, based on the interacti...
International audienceThis paper presents the capabilities of microwave dielectric spectroscopy for ...
In this study, a new microelectrode assembly based on spiral geometry applicable to in situ electrop...
International audienceThis paper illustrates the potential of microwave frequencies for biological a...
International audienceThis paper illustrates the interest of analyzing electroporated cells with mic...
Electroporation (EP) is currently a widely used bio-technique for delivery of drugs, or macromolecul...
Electroporation (EP) of biological cells leads to the exchange of materials through the permeabilize...
In recent years, several publications on microfluidic devices have focused on the process of electro...
In recent years, several publications on microfluidic devices have focused on the process of electro...