Add to ORKGAbstract—Inactivation of microorganisms, such as Escherichia coli, by exposure to a microplasma is experimentally investigated. A microplasma is an atmospheric-pressure nonthermal plasma. Microplasmas, which generate high-intensity electric fields, can be formed using relatively low discharge voltages (0.7–1.1 kV) across small discharge gaps (0–100 μm). The key benefits of the practical application of exposure to a microplasma are as follows: 1) the low discharge voltage and 2) the simple apparatus because a vacuum enclosure is not required. Hence, the apparatus for generating a microplasma could be relatively small and inexpensive and could be integrated into a portable device. The ozone generated by a microplasma at a low power level was ...
A microplasma jet array is a device composed of a two-dimensional array of micro-scaled gas channels...
Micro-plasma jets in atmospheric pressure molecular gases (nitrogen, oxygen, air) were generated by...
Abstract—Streptococcus mutans (S. mutans) bacteria were killed using a low-power millimeter-size atm...
A stable and homogeneous well-aligned air microplasma device for application at atmospheric pressure...
This work was aimed at experimental investigations of deactivation of different types of microorgani...
In this work a small plasma jet is generated applying an ac high voltage (kV) of low frequency (50 H...
The effects of low-temperature plasma treatment on microorganisms typically related to skin diseases...
The effect of CAP on the dermatologic relevant bacteria E. coli, P. aeruginosa and the yeast C. albi...
Microplasmas refer to electric discharges created in very small geometries able to operate in DC mo...
A microplasma generated between a stainless-steel capillary and water surface in ambient air with fl...
Non-equilibrium microplasmas at atmospheric pressures have been investigated for active flow control...
Microplasmas are nowadays a powerful tool with multiple practical applications. The performance of ...
Abstract: The microplasma source using a piezo-electric transformer is investigated for bio-medical ...
In this paper we present a parameter study on deactivation of Escherichia coli (E. coli) by means of...
Microplasmas gained recognition as a distinct area of research within the larger field of plasma sci...
A microplasma jet array is a device composed of a two-dimensional array of micro-scaled gas channels...
Micro-plasma jets in atmospheric pressure molecular gases (nitrogen, oxygen, air) were generated by...
Abstract—Streptococcus mutans (S. mutans) bacteria were killed using a low-power millimeter-size atm...
A stable and homogeneous well-aligned air microplasma device for application at atmospheric pressure...
This work was aimed at experimental investigations of deactivation of different types of microorgani...
In this work a small plasma jet is generated applying an ac high voltage (kV) of low frequency (50 H...
The effects of low-temperature plasma treatment on microorganisms typically related to skin diseases...
The effect of CAP on the dermatologic relevant bacteria E. coli, P. aeruginosa and the yeast C. albi...
Microplasmas refer to electric discharges created in very small geometries able to operate in DC mo...
A microplasma generated between a stainless-steel capillary and water surface in ambient air with fl...
Non-equilibrium microplasmas at atmospheric pressures have been investigated for active flow control...
Microplasmas are nowadays a powerful tool with multiple practical applications. The performance of ...
Abstract: The microplasma source using a piezo-electric transformer is investigated for bio-medical ...
In this paper we present a parameter study on deactivation of Escherichia coli (E. coli) by means of...
Microplasmas gained recognition as a distinct area of research within the larger field of plasma sci...
A microplasma jet array is a device composed of a two-dimensional array of micro-scaled gas channels...
Micro-plasma jets in atmospheric pressure molecular gases (nitrogen, oxygen, air) were generated by...
Abstract—Streptococcus mutans (S. mutans) bacteria were killed using a low-power millimeter-size atm...