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The photovoltaic effect is the creation of voltage or electric current in a material upon exposure to light and is a physical and chemical phenomenon.〔http://www.chemistryexplained.com/Ru-Sp/Solar-Cells.html〕 The standard and obvious photovoltaic effect is directly related to the photoelectric effect, though they are different processes. When the sunlight or any other light is incident upon a material surface, the electrons present in the valence band absorb energy and, being excited, jump to the conduction band and become free. The chemical bonds of the material are vital for the process to work, as crystallized atoms are ionized and create a chemical electric imbalance, driving the electrons. These highly excited, non-thermal electrons diffuse, and some reach a junction where they are accelerated into a different material by a built-in potential (Galvani potential). This generates an electromotive force, and thus some of the light energy is converted into electric energy. The photovoltaic effect can also occur when two photons are absorbed simultaneously in a process called two-photon photovoltaic effect. Due to the importance of the chemical structure of the absorbing material, silicon is often used, either bonded with boron or phosphorus. This is due to the semi-conducting ability of the metalloid and its bonding-potential, which is almost identical to carbon. The photovoltaic effect was first observed by French physicist A. E. Becquerel in 1839. He explained his discovery in ''Les Comptes Rendus de l'Academie des Sciences'', "the production of an electric current when two plates of platinum or gold diving in an acid, neutral, or alkaline solution are exposed in an uneven way to solar radiation." In the photoelectric effect, by contrast, electrons are ejected from a material's surface into vacuum, upon exposure to light. This also generates some electric energy (as the ejected electron is eventually captured on another electrode), though there is typically a high photon energy threshold. The photovoltaic effect differs in that the excited electrons pass directly from one material to another, avoiding the difficult step of passing through the vacuum in between. Besides the direct excitation of free electrons, a photovoltaic effect can also arise simply due to the heating caused by absorption of the light. The heating leads to an increase in temperature, which is accompanied by temperature gradients. These thermal gradients in turn may generate a voltage through the Seebeck effect. Whether direct excitation or thermal effects dominate the photovoltaic effect will depend on many material parameters. In most photovoltaic applications the radiation is sunlight, and the devices are called solar cells. In the case of a p-n junction solar cell, illuminating the material creates an electric current as excited electrons and the remaining holes are swept in different directions by the built-in electric field of the depletion region.〔(The photovoltaic effect ). Scienzagiovane.unibo.it (2006-12-01). Retrieved on 2010-12-12.〕 ==See also== * Theory of solar cells * Electromotive force in solar cells 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「photovoltaic effect」の詳細全文を読む スポンサード リンク
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