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A flat panel solar cell
We found this article on
http://www.scitoys.com/scitoys/scitoys/
echem/echem3.html
This is the second of the
articles about building your own solar panels, so
be sure to check out the others when you get a chance. This article,
in our opinion, was super, super, super cool, so we thank them for allowing us to post it
at TheSolarPlan.com!
This would be such a cool project for a middle school or high school science
teacher to do with their classes!
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A flat panel solar cell
I made a more portable version of the solar cell in a flat panel form. I
used the clear plastic top from a plastic CD jewel case as the window, and
lots of silicone rubber glue to both attach the pieces together and to
insulate them from each other.
The first step is to make a cuprous oxide plate like we did in the first
solar cell. This time I sanded one corner clean all the way down to the
shiny copper, and soldered an insulated copper wire to it for the negative
lead.
The positive plate is a U shaped piece cut from the copper sheeting, a
little bit larger than the cuprous oxide plate, with the cutout portion of
the U a little bit smaller than the cuprous oxide plate. Another insulated
copper wire is soldered to one corner of the U.
The first step in construction is to glue the U shaped copper plate to the
plastic window. Use plenty of silicone glue, so the saltwater won't leak
out. Make sure that the solder connection is either completely covered with
glue, or is outside of the glue U, as shown in the photo (completely covered
in glue is best).
The photo below shows the back side of the solar cell (the side not facing
the sun) at this point in the construction.
The photo below shows the front side of the solar cell (the side that will
face the sun) at this point in the construction. Notice that the silicone
glue does not completely cover the copper, since some of the copper must
eventually be in contact with the saltwater.
The next step is to lay a good size bead of glue onto the U shaped clean
copper plate. This layer will act as an insulator between the clean copper
plate and the cuprous oxide plate, and must be thick enough to leave some
room for the saltwater. Again, not all of the copper is covered, so there
will be plenty of copper in contact with the saltwater.
Gently press the cuprous oxide plate onto this layer of glue. You should
press hard enough to make sure the glue seals off any gaps, but not so hard
that the two plates touch.
The photo below shows the back side of the solar cell (the side not facing
the sun) at this point in the construction.
The photo below shows the front side of the solar cell (the side that will
face the sun) at this point in the construction. Note that I added extra
glue to form a funnel at the top to allow the saltwater to be added.
You can click on the photo above to get a bigger picture.
Not shown in the photo is a generous extra bead of glue all around the
outside of the plates, to ensure that no saltwater will leak out. Allow the
glue to cure before going on to the next step.
Next, use a large eyedropper to add the saltwater. Fill the cell up almost
to the top of the copper plate, so it almost spills out. Then seal the
funnel with another generous bead of glue, and allow the glue to cure at
least a half hour.
In the photo above you can see the flat panel solar cell in action in the
bright sun. It is delivering about 36 microamperes of current. You can also
see the extra bead of glue around the edges of the plates, and filling the
top of the funnel.
Finally, another shot of the author's shadow. Note that the meter now reads
about 4 microamperes, since no sunlight is falling on it.
Once again, TheSolarPlan.com thanks http://www.scitoys.com/scitoys/scitoys/echem/echem3.html
for sharing this article with us!
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