developedBy
- INP Greifswald Institute
- neoplas tools GmbH
- neoplas tools GmbH Company
kINPen-sci
Plasma Source
Plasma-kg
diagnosedUsing
- 4Picos dig, Stanford Computer Optics Diagnostic Device
- AC050-010-B-ML, Thorlabs Diagnostic Device
- Kirana 5M camera, Specialised Instruments Diagnostic Device
- Nd:YAG pump laser Diagnostic Device
- QE8SP-B-MT, Gentec-EO Diagnostic Device
- continuous-wave cavity ring-down spectroscopy setup Diagnostic Device
diagnosedUsing
- CFD simulations Method
- Cavity Ring-Down Spectroscopy (CRDS) Diagnostic Method
- Continuous Wave Cavity Ring-Down Spectroscopy (cw-CRDS) Diagnostic Method
- High-Speed Imaging Diagnostic Method
- Plasma Chemical Model Diagnostic Method
- fast imaging Diagnostic Method
- picosecond two-photon absorption laser induced fluorescence spectroscopy (ps-TALIF) Diagnostic Method
- spatially resolved continuous wave cavity ring-down spectroscopy (cw-CRDS) Diagnostic Method
- two-dimensional axisymmetric model of the turbulent reacting flow Method
generates
- Non-Thermal Plasma Plasma
- cold atmospheric plasma (CAP) Plasma
- effluent of the kINPen-sci plasma jet Plasma
- filamentary atmospheric pressure Argon plasma Plasma
- plasma effluent Plasma
hasApplicationField
- Basic Research Application Field
- Biological Decontamination Application Field
- Biomedical Applications Application Field
- Medical Applications Application Field
- basic research Application Field
- material processing Application Field
- surface modification Application Field
- surface treatment Application Field
hasConfiguration
- Configuration for coordinate system: The symmetry axis of the plasma effluent is defined as the z-axis, normalised to the tip of the respective jet’s nozzle, such that the effluent exits the source at z = 0
- Configuration for kINPen Science: 7 mm distance to a grounded copper plate; operation frequency of about 1 MHz
- Configuration for kINPen-sci plasma source: Frequency: 860 MHz; Power: 1-3 W; Feed gas: 3 slm Ar with humidity contents up to 1370 ppm; Gas curtain: 5 slm N₂/O₂ mixture
- Configuration for kINPen-sci: Frequency ~1 MHz; Power 1-3 W; Feed gas 3 slm Ar with 3000 ppm humidity; Gas curtain 5 slm O₂
- Configuration for kINPen-sci: operated with a gas curtain providing a concentric gas flow; placed on a motorised xyz translation stage; z-axis defined along the symmetry axis of the effluent; x-axis defined as the axis parallel to the laser beam.
- Configuration for kINPen-sci: sinusoidal waveform of 860 kHz with a peak-to-peak voltage of 3kV
- Frequency: ~1MHz; Power: 1-3 W; Feed gas: 3 slm Ar with 3000 ppm humidity; Gas curtain: 5 slm O2
hasDeviceType
- Atmospheric Pressure Plasma Jet (APPJ) Plasma Source Type
- Plasma Jet Plasma Source Type
- plasma jet Plasma Source Type
hasExperiencedAgent
- Bansemer, Robert Person
- Brandenburg, Ronny Person
- Ellis, James Person
- Gans, Timo Person
- Gerling, Torsten Person
- Harris, Benjamin Person
- Klose, Sarah-Johanna Person
- Krös, Levin Person
- Manfred, Katherine M. Person
- Mattern, Philipp Person
- Nave, Andy S. C. Person
- Niemi, Kari Person
- Norman, Helen C. Person
- O'Connell, Deborah Person
- Riedel, Frederik Person
- Ritchie, Grant A. D. Person
- Schröter, Sandra Person
- Semenov, Igor Person
- Wagenaars, Erik Person
- Weltmann, Klaus-Dieter Person
- van Helden, Jean-Pierre Person
hasProperty
- Atmospheric pressure; Frequency: ~1MHz; Power: 1-3 W
- Properties of kINPen-sci: Frequency: 860 MHz; Power: 1-3 W
- Spatial density distribution of H2O2 in the effluent of the kINPen-sci plasma jet: average number density is a factor of two higher than the COST Jet, has a more pronounced radial distribution close to the nozzle, mixing with ambient air is more gradual at further distances from the nozzle
hasSpecification
- AC, high frequency, atmospheric pressure, non-thermal
- Specification for kINPen-sci and COST-Jet: AC, high frequency, atmospheric pressure, non-thermal
- Specification for kINPen-sci: AC, high frequency, atmospheric pressure, non-thermal, Needle to ring electrode configuration in dielectric capillary (diameter: 1.6 mm), Frequency: ~ 1 MHz, Power: 1 - 3 W
- Specification for kINPen-sci: atmospheric pressure, AC, high frequency, non-thermal; Frequency: 860 MHz; Power: 1-3 W
plasmaSourceOf
- Fast framing images of the kINPen Science as example set of images for testing BLITZ image viewer Plasma Study
- Investigation of Ar(³P₂) metastable density in the effluent of a filamentary atmospheric pressure plasma jet with humidified feed gas Plasma Study
- Investigation of the spatial distribution of HO₂ in an atmospheric pressure plasma jet by cavity ring-down spectroscopy Plasma Study
- Numerical simulations of the turbulent reacting flow coupled with a plasma chemical model for the kINPen-sci plasma jet
- Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet Plasma Study
- The localised density of H₂O₂ in the effluent of a cold atmospheric pressure plasma jet determined by continuous-wave cavity ring-down spectroscopy Plasma Study
- The spatial density distribution of H2O2 in the effluent of the COST-Jet and the kINPen-sci operated with a humidified helium feed gas Plasma Study
treats
- copper plate Target
usedIn
- Fast framing images of the kINPen Science as example set of images for testing BLITZ image viewer Plasma Study
- Investigation of Ar(³P₂) metastable density in the effluent of a filamentary atmospheric pressure plasma jet with humidified feed gas Plasma Study
- Investigation of the spatial distribution of HO₂ in an atmospheric pressure plasma jet by cavity ring-down spectroscopy Plasma Study
- Spatial distribution of hydrogen and oxygen atoms in a cold atmospheric pressure plasma jet Plasma Study
usedIn
usesMaterialEntity
usesMedium
- Ar Medium
- Ar with 3000 ppm humidity Medium
- Ar, O2, H2O Medium
- H2O Medium
- He Medium
- Humidified Argon Medium
- Humidified helium Medium
- N₂/O₂ mixture Medium
- O2 Medium
- argon Medium
- effluent Medium
- oxygen Medium
- pure nitrogen Medium
- water Medium