Photoionization detector with layered electrodes

The invention claimed is: 1 . A photoionization detector comprising: an insulation spacer component comprising ultraviolet radiation shielding material, wherein the insulation spacer component comprises a first surface and a second surface; and a signal collection electrode component disposed on the first surface of the insulation spacer component and comprising a first electrode layer and a second electrode layer, wherein the first electrode layer is disposed between the insulation spacer component and the second electrode layer, wherein a second layer electrode width associated with the second electrode layer is smaller than a first layer electrode width associated with the first electrode layer, wherein the first electrode layer defines a plurality of first electrode layer openings, wherein the first layer electrode width corresponds to a width of the first electrode layer between two of the plurality of first electrode layer openings, wherein the second electrode layer defines a plurality of second electrode layer openings, wherein the second layer electrode width corresponds to a width of the second electrode layer between two of the plurality of second electrode layer openings, and wherein a bias voltage electrode component is disposed on the second surface of the insulation spacer component. 2 . The photoionization detector of claim 1 , wherein the second surface of the insulation spacer component is opposite to the first surface of the insulation spacer component. 3 . The photoionization detector of claim 2 , wherein the signal collection electrode component is applied with a signal collection voltage, wherein the bias voltage electrode component is applied with a bias voltage. 4 . The photoionization detector of claim 3 , wherein the bias voltage is higher than the signal collection voltage. 5 . The photoionization detector of claim 1 , wherein the insulation spacer component defines a plurality of insulation spacer openings. 6 . The photoionization detector of claim 5 , wherein each of the plurality of insulation spacer openings is aligned with one of the plurality of first electrode layer openings, wherein each of the plurality of first electrode layer openings is aligned with the one of the plurality of second electrode layer openings. 7 . The photoionization detector of claim 6 , wherein each of the plurality of insulation spacer openings is narrower than one of the plurality of first electrode layer openings, wherein each of the plurality of first electrode layer openings is narrower than one of the plurality of second electrode layer openings. 8 . The photoionization detector of claim 1 , further comprising an ultraviolet light source, wherein the insulation spacer component is positioned between the ultraviolet light source and the signal collection electrode component. 9 . The photoionization detector of claim 8 , wherein ultraviolet light from the ultraviolet light source does not impinge on the first electrode layer of the signal collection electrode component and does not impinge on the second electrode layer of the signal collection electrode component. 10 . The photoionization detector of claim 1 , wherein the signal collection electrode component comprises at least one intermediate electrode layer that is positioned between the first electrode layer and the second electrode layer. 11 . The photoionization detector of claim 10 , wherein the at least one intermediate electrode layer defines a plurality of intermediate electrode layer openings, wherein an intermediate layer electrode width associated with the at least one intermediate electrode layer is smaller than the first layer electrode width and larger than the second layer electrode width. 12 . The photoionization detector of claim 11 , wherein the intermediate layer electrode width corresponds to a width of the at least one intermediate electrode layer between two of the plurality of intermediate electrode layer openings. 13 . The photoionization detector of claim 1 , wherein the plurality of first electrode layer openings, a plurality of intermediate electrode layer openings, and the plurality of second electrode layer openings are aligned with each other. 14 . The photoionization detector of claim 1 , wherein each of the plurality of first electrode layer openings is narrower than one of a plurality of intermediate electrode layer openings, wherein each of the plurality of intermediate electrode layer openings is narrower than one of the plurality of second electrode layer openings. 15 . The photoionization detector of claim 1 , wherein the signal collection electrode component defines a plurality of signal collection electrode openings, wherein the signal collection electrode component comprises a triangular prism shaped electrode between two of the plurality of signal collection electrode openings. 16 . The photoionization detector of claim 15 , wherein the insulation spacer component defines a plurality of insulation spacer openings. 17 . The photoionization detector of claim 16 , wherein each of the plurality of insulation spacer openings is aligned with one of the plurality of signal collection electrode openings.