In short, the light (electromagnetic energy) shining on the solar cell is converted directly to electric charge (potential energy). The increase in the electric charge can promote the flow of electric current in an external circuit, in much the same way as an ordinary electrical battery would.
They all produce static electricity.
As of 2007,* commercial amorphous Si solar cells convert about 8% of the solar energy that strikes them into electrical energy.* multicrystalline Si solar cells convert around 16% of the solar energy that strikes them into electrical energy* commercial single crystal Si solar cells convert about 22% of the solar energy that strikes them into electrical energy.So single crystal Si solar cells have the highest energy conversion efficiency.However, amorphous Si solar cells require less energy to produce and are less expensive than multicrystalline Si solar cells, which in turn require less energy to produce and are less expensive than single crystal Si solar cells.In some cases amorphous Si solar cells are more economically efficient (produce more power for the same initial price or initial investment in energy to produce).
Solar cells can produce a significant amount of energy, but the amount varies depending on factors such as the size of the solar installation, the efficiency of the solar cells, and the amount of sunlight received. In sunny regions with proper installation, solar cells can generate a substantial amount of electricity.
Solar energy produces electromagnetic radiation in the form of visible light and heat, which can be converted into electrical energy using photovoltaic cells. This energy is renewable and environmentally friendly.
Photovoltaic cells
Photovoltaic solar cells produce electricity using solar power. Since their energy comes from the sun, they do not produce any pollution. This makes them environmentally friendly.
Solar power produces electrical energy by converting sunlight into electricity using photovoltaic cells.
solar cells generate electric currents directly from the sun light
solar
Solar energy is recovered through the use of solar panels, which contain photovoltaic cells that convert sunlight into electricity. These cells absorb photons from the sunlight, which then create an electrical current that can be used to power various devices or stored in batteries for later use.
Solar cells have stored solar energy that is converted into electrical energy.
Because solar panels/ cells which collect the solar energy are expensive also they are very unreliable when the sun is not out. .Payback time is expensive .time consuming .It does not produce that much power which we need. . it does not produce energy in night. . The amount of energy obtained changes depending on the climate.