Electronic indicator for monitoring efficacy of a cleaning cycle

What is claimed is: 1. An electronic indicator to monitor efficacy of a cleaning cycle, comprising: a barrier layer comprising a first dielectric material, the barrier layer having a first barrier surface and a second barrier surface, the first barrier surface being opposite to the second barrier surface; a volume of wash-removable artificial soil disposed on at least a portion of the first barrier surface; and a sensor having a first major sensor surface and an opposing second major sensor surface, wherein the first major sensor surface is adjacent to the second barrier surface, and wherein an electrical characteristic of the electronic indicator varies in response to a change in the volume of the artificial soil. 2. The electronic indicator of claim 1 , wherein the sensor is configured to produce a sensor signal associated with the electrical characteristic of the electronic indicator when the electronic indicator is measured by an electrical characteristic reader. 3. The electronic indicator of claim 1 , wherein the sensor comprises an interdigitated electrode sensor. 4. The electronic indicator of claim 3 , wherein the interdigitated electrode sensor comprises three or more electrodes. 5. The electronic indicator of claim 1 , further comprising an insulating layer comprising a second dielectric material and having a first insulating layer surface and an opposing second insulating layer surface, wherein the first insulating layer surface is adjacent to the second major sensor surface and covers at least a portion of the second major sensor surface. 6. The electronic indicator of claim 5 , further comprising a shielding layer comprising a conductive material disposed on at least a portion of the second insulating layer surface. 7. The electronic indicator of claim 1 , wherein the barrier layer has a thickness in the range of 5 nm to 5 mm. 8. The electronic indicator of claim 1 , wherein the electrical characteristic of the electronic indicator comprises at least one of capacitance characteristic, impedance characteristic, and conductance characteristic. 9. A wash efficacy measurement system, comprising: an electronic indicator configured to be disposed in a wash chamber during a cleaning cycle, the electronic indicator comprising: a barrier layer comprising a dielectric material, the barrier layer having a first barrier surface and a second barrier surface, the first barrier surface being opposite to the second barrier surface; a volume of wash-removable artificial soil disposed on at least a portion of the first barrier surface; and a sensor having a first major sensor surface and an opposing second major sensor surface, wherein the first major sensor surface is adjacent to the second barrier surface, wherein the sensor is configured to produce a sensor signal associated with an electrical characteristic of the electronic indicator when the electronic indicator is measured by an electrical characteristic reader, and wherein the electrical characteristic of the electronic indicator varies in response to a change in the volume of the artificial soil; and an electrical characteristic reader configured to measure an after-wash electrical characteristic of the electronic indicator after the cleaning cycle starts, wherein the after-wash electrical characteristic of the electronic indicator indicates an efficacy of the cleaning cycle. 10. The wash efficacy measurement system of claim 9 , wherein the sensor comprises an interdigitated electrode sensor. 11. The wash efficacy measurement system of claim 10 , wherein the interdigitated electrode sensor comprises two electrodes, and wherein the electrical characteristic reader is further configured to provide direct current or alternating current potentials to the two electrodes. 12. The wash efficacy measurement system of claim 9 , wherein the electrical characteristic reader is further configured to measure a before-wash electrical characteristic of the electronic indicator without artificial soil before the cleaning cycle, wherein the efficacy of the cleaning cycle is determined based on the before-wash electrical characteristic of the electronic indicator and the after-wash electrical characteristic of the electronic indicator. 13. The wash efficacy measurement system of claim 9 , wherein the electrical characteristic reader is further configured to measure a before-wash electrical characteristic of the electronic indicator with artificial soil before the cleaning cycle, wherein the efficacy of the cleaning cycle is determined based on the before-wash electrical characteristic of the electronic indicator and the after-wash electrical characteristic of the electronic indicator. 14. The wash efficacy measurement system of claim 9 , wherein the electrical characteristic of the electronic indicator comprises at least one of capacitance characteristic, impedance characteristic, and conductance characteristic. 15. The wash efficacy measurement system of claim 9 , wherein the electrical characteristic reader is configured to the after-wash electrical characteristic during the cleaning cycle. 16. The wash efficacy measurement system of claim 15 , further comprising: a processor electronically coupled to the electrical characteristic reader, the processor configured to receive the after-wash electrical characteristic and generate a signal indicative of the efficacy of the cleaning cycle. 17. An electronic indicator to monitor efficacy of a cleaning cycle, comprising: a barrier layer comprising a first dielectric material, the barrier layer having a first barrier surface and a second barrier surface, the first barrier surface being opposite to the second barrier surface; a volume of wash-removable artificial soil disposed on at least a portion of the first barrier surface; a sensor having a first major sensor surface and an opposing second major sensor surface, the first major sensor surface being adjacent to the second barrier surface; and an insulating layer comprising a second dielectric material and having a first insulating layer surface and an opposing second insulating layer surface, wherein the first insulating layer surface is adjacent to the second major sensor surface and covers at least a portion of the second major sensor surface, and wherein the electrical characteristic of the electronic indicator varies in response to a change in the volume of the artificial soil. 18. A method for measuring wash efficacy, comprising: (1) disposing an electronic indicator in a wash chamber during a cleaning cycle, the electronic indicator comprising: a sensor configured to produce a sensor signal associated with an electrical characteristic of the electronic indicator, and a volume of wash-removable artificial soil disposed on at least a portion of a surface of the electronic indicator, wherein the electrical characteristic of the electronic indicator varies in response to a change in the volume of the artificial soil; (2) measuring an after-wash electrical characteristic of the electronic indicator after the cleaning cycle; and (3) recording the after-wash electrical characteristic of the electronic indicator. 19. The method of claim 18 , further comprising: determining an efficacy of the cleaning cycle based on the after-wash electrical characteristic of the electronic indicator. 20. The method of claim 18 , further comprising: measuring a before-wash electrical characteristic of the electronic indicator with artificial soil before the cleaning cycle,