Apparatus for atmospheric pressure pin-to-hole spark discharge and uses thereof

1. An atmospheric pressure pin-to-hole pulsed spark discharge device, comprising:

• a conduit for fluidically communicating as gas, a plasma, or both, therethrough, the conduit comprising first and second ends, the first end being capable of connecting to a gas supply, and a second end being capable of emitting a plasma;
  
  a positive electrode comprising a sharp tip, located within the conduit, the positive electrode further capable of receiving a high voltage from a positive terminal of a capacitive circuit;
  
  the second end of the conduit comprising a ground plate electrode comprising an opening passing through the ground plate electrode, the opening characterized as having a dimension, d,the ground plate electrode capable of being in electrical communication with ground and a negative electrode of the capacitive circuit, the sharp tip of the positive electrode being axially displaced from the opening of the ground plate electrode by distance h, the distance h defining a spark zone between the sharp tip of the positive electrode and the opening of the ground plate electrode;
  
  wherein the sharp tip of the positive electrode and the spark zone are located within the conduit;
  
  the capacitive circuit comprising positive and negative leads in electrical communication with the positive and negative electrodes, respectively, the positive lead of the capacitive circuit being disposed between the sharp tip of the positive electrode and a positive terminal of a high voltage power supply, and the negative lead of the capacitive circuit being disposed between the opening of the ground plate electrode and a negative terminal of the high voltage power supply,wherein the high voltage power supply is capable of charging the capacitive circuit to provide a voltage of between 500 V and 5000 V across the positive and negative electrodes, and the capacitive circuit is adapted to create a pulsed spark discharge at a rate of between 1 Hz and 30 Hz in the spark zone, and;
  
  wherein a dielectric material covers the positive electrode except for the sharp tip portion of the positive electrode.