Crystalline solar cells are crystalline silicon by cutting in extremely small circles. Once these groups have been cut, they are then carefully for any damage that occurred during the cutting inspected. If damage is detected, the crystalline pieces are then polished and repaired.
After repair of the stage, are doping and metallic conductors on each individual plate plotted. Dopants are materials that are used to create small electrical charges, and they have a similar effect as metallic conductors. After each record has been visited, all windows are then in a grid-like at the top of the panel itself found.
The end result is a thin layer of tightly packed crystalline wafers. To complete the process, a thin layer of glass on the top of the cells is observed. Finally, record a kind of heat-conducting cement is attached. This cement helps to prevent the plate too hot, even though solar panels can still overheat.
Silicon solar plants are built differently than crystalline solar panels. Silicon plates are arranged in multiple layers instead placed side by side. By stacking these silicon panels on top of each other silicon solar systems tend to be more efficient than crystalline solar modules. In addition, silicon panels are cheaper to produce.
Both types of solar systems are an environmentally sound way to heat a home to generate electricity, and experiment with ways to change the internal temperature. Since the sun is such a great source of energy, finding effective ways to use the sun's energy is crucial. Reducing energy consumption is now possible with the help of solar cells
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