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Homemade solar panels/cells make a great DIY project for adults and kids alike. One simple way to make a cheap solar panel is by using cuprous oxide, an oxidized form of copper. While this is a great experiment to show how a solar panel works, keep in mind that it will not produce much power at all.

Part 1
Part 1 of 3:

Making Cuprous Oxide

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  1. You can use sheet metal shears to do this easily. Make the sheets the same size. You want 1 sheet to fit on your burner or hot plate, and both to fit in the 2-liter bottle. Making them both 6 in (15 cm) squares should work well. [1]
  2. Use a degreaser to remove any oils or grease from your copper sheet. You do not want them to react with the copper or to prevent oxidation from happening. You should also wear gloves to avoid getting oil from your skin on the copper. Also be sure to scrub the copper with steel wool or sandpaper to remove any corrosion. [2]
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  3. Once you have placed a sheet on the hot plate, turn the hot plate on. This will heat the copper and provide the energy needed for the copper to react quickly with the oxygen in the air. This speeds up the natural oxidation process considerably. [3]
  4. As the copper heats up you will see varying shades of red, pink, purple, and possibly other colors. This is a sign that oxidation is taking place. Finally, you will notice that these colors are all being replaced by a black covering. This covering is cuprous oxide. Once the whole sheet is covered in cuprous oxide, allow it to cook at least 30 more minutes. [4]
    • Cooking the extra 30 minutes makes the cuprous oxide layer thick and brittle. This allows it to break away from the copper. A thin layer of cuprous oxide would remain on the copper, covering up the cupric oxide layer that needs to be exposed. [5]
  5. When you are finished cooking the copper, turn the burner off. Leave the copper on the burner to cool. This allows the copper to cool very slowly to room temperature, which should take about 20 minutes. During the cooling process the copper and the cuprous oxide layer shrink at different rates. As long as the layer is thick enough, this will result in the black cuprous oxide flaking off and exposing the red cupric oxide layer. [6]
    • Note that cupric oxide (Copper (II) oxide) is the fully oxidized form, and cuprous oxide (Cu2O) is still in an active state.
    • You can rinse the sheet under water to remove the remaining black deposits.
    • Cupric oxide is a semiconductor and must be exposed in order to make the solar cell function.
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Part 2
Part 2 of 3:

Assembling the Solar Cell

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  1. You will need to bend both pieces to match the curvature of the plastic bottle. Both pieces need to be able to fit in the bottle without touching each other. Be sure not to damage the red cuprous oxide layer when bending the cooked sheet. [7]
  2. Use the alligator clips to attach both pieces to opposite sides of the plastic bottle. The copper sheet with red cuprous oxide should be connected to the clip that will lead to a negative terminal, and the clean copper sheet could be joined to a clip leading to a positive terminal. [8]
  3. Dissolving salt into the water will provide electrolytes in the form of Na+ and Cl- that carry the current from the cuprous oxide layer to the clean copper sheet. An effective solution will be comprised of roughly one part salt (table salt is fine) to three parts water. Stir well to make sure that the salt is all dissolved. Heat if needed.
    • For example, dissolve 1 4 cup (59 mL) of salt into 3 4 cup (180 mL) of water.
    • Using distilled or deionized water will reduce the risk of contaminants.
  4. Leave about 2 inches (5.1 cm) of space above the saltwater.This will allow current to travel from the negative terminal to the positive terminal. Be careful to keep the clips at the top of the two sheets dry. Otherwise, the water on the clips might interfere with your readings. [9]
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Part 3
Part 3 of 3:

Testing Your Solar Cell

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  1. When the sun hits the cuprous oxide layer, it causes electrons to be released. The cuprous oxide is not conductive, but the electrons are able to move through the salt water to the conductive copper plate. This plate transfers the electrons to the wires. [10]
  2. Plug the other end of your alligator clips into a multimeter or ammeter. Be sure that your meter can function in the microamp (0.000001 amps) range. Plug the positive alligator clip into the positive terminal of your meter and the negative alligator clip into the negative terminal of your meter. [11]
  3. A very small amount of current will be flowing. This current should fall somewhere between 0 and 50 microamps. Turning the cell so that the cuprous oxide layer is facing the most direct sunlight will give you the most current. [12]
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Expert Q&A

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  • Question
    The copper sheet's color is changing when dipped in salt water. Why does that happen?
    Meredith Juncker, PhD
    Scientific Researcher
    Meredith Juncker is a PhD candidate in Biochemistry and Molecular Biology at Louisiana State University Health Sciences Center. Her studies are focused on proteins and neurodegenerative diseases.
    Scientific Researcher
    Expert Answer
    Copper turns a bluish-green color (called patina) when in salt water. This is due to saltwater corrosion.
  • Question
    If I have copper sheets that have already been oxidized from making previous solar cells, is there a way to re-oxidize the copper sheets in order for them to be re-cooked and undergo the same process?
    Meredith Juncker, PhD
    Scientific Researcher
    Meredith Juncker is a PhD candidate in Biochemistry and Molecular Biology at Louisiana State University Health Sciences Center. Her studies are focused on proteins and neurodegenerative diseases.
    Scientific Researcher
    Expert Answer
    Copper sheets previously used in solar cells can be melted down and stripped of impurities, to form high-grade copper as a product, but this would require lab equipment.
  • Question
    Can I light a small led or run a small mortar with this?
    Community Answer
    Unfortunately this method is not efficient for powering much of anything, even something small. It is best used to show the chemistry involved in making solar panels, rather than as a viable solar panel.
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      Tips

      • You can do this without saltwater if you put a conductive metal mesh or copper border over the cuprous oxide layer to transport electrons from the surface to the wire. These methods make the panel flat, but are less efficient because the mesh blocks some sunlight and only electrons near the conductor can be transported. [13] [14]
      • Do not try to remove all of the black cuprous oxide. This might result in damage to the cupric oxide layer.
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      Warnings

      • Don't expect to run your house off this. It would require acres of land and millions of dollars of copper just to produce enough power to run the electric stove used in step two. While this shows the same scientific principles involved in commercially viable photovoltaic cells, it's orders of magnitude less efficient.
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      Things You'll Need

      • Sheet of copper
      • Alligator clips
      • Multimeter
      • Electric stove
      • Plastic 2-L bottle
      • Table salt
      • Water
      • Sandpaper
      • Sheet metal shears

      About This Article

      Article Summary X

      To make a solar panel out of a copper sheet, start by putting on gloves, then cutting your sheet into two 6-inch squares. After cleaning off a sheet, place it on a hot plate, heat until it’s covered in a black coating, then continue cooking it for 30 minutes. Turn off the heat, let it cool for 20 minutes, and rinse it to remove the coating. Cut the top off a 2-liter bottle, then bend your copper squares against the sides of the bottle. Pour in a saltwater solution so your squares are mostly submerged, then attach alligator clips to each square. To learn how to test out your solar cell, keep reading!

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