Add to ORKGpressure plasmas has received growing attention in recent years for the potential use of these plasmas in biomedical applications, air treatment and chemical synthesis. As oxygen, H2O is a good precursor of reactive oxygen species (ROS) and the two can be combined to create cocktails of ROS (O, OH, O3, 1O2, OOH and H2O2) of different compositions. These plasmas tend to be electronegative and display interesting dynamics, particularly when created in small gaps. From a practical point of view, it is important to understand the chemical pathways leading to the production of the biologically relevant ROS, as this will provide guidelines for the optimization of the plasma sources for a particular application
Non-thermal atmospheric pressure plasmas are widely used in biomedical research and clinical applica...
Atmospheric pressure plasmas are sources of biologically active oxygen and nitrogen species, which m...
International audienceCold atmospheric pressure plasmas (APPs) are known sources of reactive oxygen,...
Reactive oxygen species (ROS) that can trigger biological responses are readily attainable in atmosp...
This study focuses on the generation and loss of reactive oxygen species (ROS) in low-temperature at...
Low-temperature atmospheric pressure plasmas have received growing interest in recent years, due to ...
It is well-known that atmospheric-pressure plasmas can be engineered to produce reactive oxygen spec...
Non-equilibrium radio-frequency driven atmospheric-pressure plasma in He/0.6%O2 gas mixture has been...
Low temperature atmospheric pressure plasmas have emerged in recent years as a new powerful technolo...
Non-thermal plasmas are ionized gases at room temperature composed of free electrons, ions, radicals...
When liquid water is treated with a non-thermal plasma discharge, a solution of reactive species is ...
Cold atmospheric-pressure plasmas in Ar+H2O gas mixtures are a promising alternative to He+H2O plasm...
In this paper radical production in atmospheric pressure water containing plasmas is discussed. As O...
Atmospheric pressure plasma jets have gained interest in the past decades, due to their efficiency i...
Non-thermal atmospheric pressure plasmas are widely used in biomedical research and clinical applica...
Atmospheric pressure plasmas are sources of biologically active oxygen and nitrogen species, which m...
International audienceCold atmospheric pressure plasmas (APPs) are known sources of reactive oxygen,...
Reactive oxygen species (ROS) that can trigger biological responses are readily attainable in atmosp...
This study focuses on the generation and loss of reactive oxygen species (ROS) in low-temperature at...
Low-temperature atmospheric pressure plasmas have received growing interest in recent years, due to ...
It is well-known that atmospheric-pressure plasmas can be engineered to produce reactive oxygen spec...
Non-equilibrium radio-frequency driven atmospheric-pressure plasma in He/0.6%O2 gas mixture has been...
Low temperature atmospheric pressure plasmas have emerged in recent years as a new powerful technolo...
Non-thermal plasmas are ionized gases at room temperature composed of free electrons, ions, radicals...
When liquid water is treated with a non-thermal plasma discharge, a solution of reactive species is ...
Cold atmospheric-pressure plasmas in Ar+H2O gas mixtures are a promising alternative to He+H2O plasm...
In this paper radical production in atmospheric pressure water containing plasmas is discussed. As O...
Atmospheric pressure plasma jets have gained interest in the past decades, due to their efficiency i...
Non-thermal atmospheric pressure plasmas are widely used in biomedical research and clinical applica...
Atmospheric pressure plasmas are sources of biologically active oxygen and nitrogen species, which m...
International audienceCold atmospheric pressure plasmas (APPs) are known sources of reactive oxygen,...