Recovering performance of degraded solar cells with electrical pulses

We claim: 1. A method of recovering performance of a degraded solar cell having first and second electrodes defining a solar cell polarity therebetween, the degraded solar cell having ions accumulated in an electrolyte of the solar cell so as to block ion transport channels of the electrolyte, comprising: connecting a power source to the first and second electrodes; and sequentially applying a series of voltage pulses with the power source across the solar cell at the solar cell polarity providing a forward electrical bias of the solar cell, each voltage pulse: spaced from an adjacent voltage pulse by a time period, the time period being in a range of 1 second to 3 seconds: and defined by a pulse height of between about 2 V and 3 V and a pulse width of between about 150 ms and 200 ms. 2. The method of claim 1 further comprising the step of injecting electrons into the electrolyte so as to improve a flow characteristic through the ion transport channels. 3. The method of claim 1 further comprising injecting a number of electrons into the electrolyte that is no more than a number of ions in the electrolyte. 4. A method of recovering performance of a degraded solar cell having first and second electrodes, the degraded solar cell having ions accumulated in an electrolyte of the solar cell so as to block ion transport channels of the electrolyte, the method comprising: connecting a power source to first and second electrodes; sequentially applying a series of voltage pulses with the power source across the solar cell for forward electrical biasing of the solar cell, each voltage pulse: spaced from an adjacent voltage pulse by a time period, the time period being in a range of 1 second to 3 seconds; and defined by a pulse height of between about 2 V and 3 V and a pulse width of between about 150 ms and 200 ms; injecting electrons into the electrolyte during application of each voltage pulse; and redistributing the ions by moving at least some of the ions so as to improve a flow characteristic through the ion transport channels. 5. The method of claim 4 wherein redistributing the ions includes changing a concentration of ions in the electrolyte. 6. The method of claim 4 further comprising injecting a number of electrons into the electrolyte that is no more than a number of ions in the electrolyte.