Application of electrochemical impedance spectroscopy in sensor systems, devices, and related methods

What is claimed is: 1. A method for real-time detection of sensitivity loss for a working electrode of a sensor, the method comprising: periodically performing an electrochemical impedance spectroscopy (EIS) procedure to generate multiple sets of impedance-related data for said working electrode, wherein each of the multiple sets of impedance-related data includes data for at least one impedance-related parameter that is substantially glucose-independent; for each of said multiple sets of impedance-related data, calculating, by a microprocessor, respective values of 1 kHz imaginary impedance, 0.1 kHz real impedance, and relatively-higher frequency phase angle; monitoring, by said microprocessor, said respective values over time; based on said monitoring of the respective values, determining, by said microprocessor, when said respective values of 1 kHz imaginary impedance become more negative over time, that said working electrode is experiencing an oxygen deficiency-led loss of sensitivity; based on the determination that the working electrode is experiencing an oxygen deficiency-led loss of sensitivity, identifying, by the microprocessor, said working electrode as not behaving normally; and based on said identification of the working electrode as not behaving normally, alerting a user of the sensor that the sensor should be replaced. 2. The method of claim 1 , wherein each said periodic EIS procedure is performed for a predetermined range of frequencies. 3. The method of claim 1 , wherein the sensor includes a counter electrode, the method further comprising verifying said loss of sensitivity based on whether the voltage of the counter electrode rails. 4. The method of claim 1 , wherein the sensor includes a plurality of redundant working electrodes, wherein said periodic EIS procedure is performed for each of the plurality of working electrodes to generate multiple sets of impedance-related data for each said working electrode, wherein said respective values of one or more impedance-related parameters are calculated for each said working electrode, and wherein said sensitivity-loss determination is made for each working electrode by comparing said respective values for at least one working electrode to said respective values for at least a second working electrode of the plurality of electrodes over time.