Oil removal from iron surfaces by atmospheric-pressure barrier discharges

“…The DBD plasma can be used for chemical oxidation and physical etching on polymer surface, and for the removal of surface oily finish on materials [23,24]. The plasma can apply most of the discharge energy to produce and accelerate some active species which can modify the material surface and decompose volatile organic compounds [25].…”

Effects of Twaron fiber surface treatment by air dielectric barrier discharge plasma on the interfacial adhesion in fiber reinforced composites

“…The DBD plasma can be used for chemical oxidation and physical etching on polymer surface, and for the removal of surface oily finish on materials [23,24]. The plasma can apply most of the discharge energy to produce and accelerate some active species which can modify the material surface and decompose volatile organic compounds [25].…”

Effects of Twaron fiber surface treatment by air dielectric barrier discharge plasma on the interfacial adhesion in fiber reinforced composites

“…As an alternative to conventional catalytic dry reforming reaction, non-thermal plasma appears as an interesting technology since highly energetic electrons generated by plasma at room temperature are able to initiate chemical processes. Dielectric barrier discharge (DBD) plasma was used for many applications such as ozone generation [5], VOC removal [6], surface treatment [7] and also reforming reactions [8][9][10]. The nature of the dielectric barrier material is one of the key parameter for the performances of the DBD plasma.…”

Carbon dioxide dissociation to carbon monoxide by non-thermal plasma

“…NTP is characterized by the presence of high energetic electrons that are capable of promoting chemical reactions under ambient conditions. NTP has reported applications in water treatment [4,5], surface treatment [6], VOC removal [7] reforming reactions [8,9], etc. Among the various NTP configurations, dielectric barrier discharge (DBD) has attracted considerable attention due to the ability to produce high energetic electrons (1-10 eV), uniform distribution of microdischarges, capable of initiating the chemical reactions under ambient conditions, etc.…”

DBD Plasma Assisted CO2 Decomposition: Influence of Diluent Gases