I started with a piece steel angle and a copper wire. I stripped insulation from the end to get a pretty solid contract on the steel. It does not need any insulation. A copper bar in full contact with the steel works just fine. Perhaps better with more opportunities for a solid connection.
In shade, I was getting .1 millivolts.
When I moved the junction into direct sunlight it went to .2 millivolts and stayed there. Then I took a 5.5' lens leftover from a 1970s aerospace project that I have been lugging around for 50 years and focused the Sun on the junction point. A solid .3 millivolts.
I tried this with the copper wire and a piece of aluminum rod. This showed zero current in shade and only .1 millivolts in sunlight with magnifying lens. I would expect the copper/aluminum junction to be more effective than copper and steel based on elextronegativity numbers for copper, iron, and aluminum. Aluminum, however; produces a strong oxide coating as soon as it is exposed. I may not be getting much of a voltage because of that. I have ordered a small copper rod for further experiments.
Okay you are going to need a lot of cells to produce a useful voltage for recharging, but while waiting for civilization to come back up you will have time. Unlike PV panels, many of which I expect will be EMP fried, this is as simple as it gets.
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