Patent ID: 9536725
Date: 2017-01-03
CPC Classifications: G01J,G01N,H01J

Claim:
1. A liquid sampling, atmospheric pressure, glow discharge (LS-APGD) device comprising: an electrolyte solution source; a first hollow tube extending from the electrolyte solution source to a first discharge end of the first hollow tube, the first hollow tube comprising an inside diameter of from about 0.1 millimeter to about 2 millimeters, the first hollow tube comprising a conductive element, the first hollow tube being in fluid communication with the electrolyte solution source and being configured to carry a flow of a liquid electrolyte solution within the first hollow tube and deliver the electrolyte solution out of the first discharge end; an analyte source; a second hollow tube extending from the analyte source to a second discharge end of the second hollow tube, the second hollow tube comprising an inside diameter of from about 0.1 millimeter to about 2 millimeters, the second hollow tube being in fluid communication with the analyte source and being configured to carry a flow of an aerosol including an analyte within the second hollow tube and deliver the aerosol out of the second discharge end, the first and second hollow tubes being located with respect to one another such that a flow that exits the first discharge end of the first hollow tube intersects with a flow that exits the second discharge end of the second hollow tube; a counter electrode disposed at a distance of from about 0.1 millimeter to about 5 millimeters from the first discharge end of the first hollow tube, a terminal portion of the second hollow tube comprising the counter electrode; a power source in electrical communication with the conductive element of the first hollow tube and with the counter electrode such that the conductive element of the first hollow tube and the counter electrode are in electrical communication with one another via the power source, the power source being configured to establish a voltage difference between the conductive element and the counter electrode across the distance; and a glow discharge space within the distance.