Development and characterization of a low-cost Atmospheric Pressure Plasma Jet (APPJ)
POSTER
Abstract
Atmospheric Pressure Plasma Jets (APPJs) are an example of non-equilibrium plasma at
atmospheric pressures and relatively low temperatures (preferably, room temperature) that have
a large range of practical biological applications. They can be produced using high-frequency
pulses of high DC voltages (of several kV). This forms a plasma with highly reactive
components while keeping an overall low temperature. These properties make it very useful in
biological applications where large amounts of thermal energy would harm the target.
Traditionally, the production of APPJ plasma uses expensive electrical apparatus that is difficult
to replicate or scale up. Therefore, this project aims to find a way to cheaply and easily produce
APPJs. We plan to try several APPJ designs using high frequency pulsed DC, AC, and/or RF
power under variable electrode spacings, neutral gas flow rates and ionization voltages to
determine the best combinations with the aim of producing a relatively inexpensive way of
delivering room temperature, atmospheric pressure plasmas.
atmospheric pressures and relatively low temperatures (preferably, room temperature) that have
a large range of practical biological applications. They can be produced using high-frequency
pulses of high DC voltages (of several kV). This forms a plasma with highly reactive
components while keeping an overall low temperature. These properties make it very useful in
biological applications where large amounts of thermal energy would harm the target.
Traditionally, the production of APPJ plasma uses expensive electrical apparatus that is difficult
to replicate or scale up. Therefore, this project aims to find a way to cheaply and easily produce
APPJs. We plan to try several APPJ designs using high frequency pulsed DC, AC, and/or RF
power under variable electrode spacings, neutral gas flow rates and ionization voltages to
determine the best combinations with the aim of producing a relatively inexpensive way of
delivering room temperature, atmospheric pressure plasmas.
Presenters
-
Benjamin P Johnson
Auburn University
Authors
-
Benjamin P Johnson
Auburn University
-
Saikat Chakraborty Thakur
Auburn University
-
Cameron Royer
Auburn University
-
Edward E Thomas
Auburn University