Electrochemical oscillations previously shown to occur during hydrogen peroxide reduction of natural samples of copper-containing sulfides (e.g. Cu5FeS4) have also been produced with synthetic chalcopyrites (CuMeX2 with Me=Fe, In, X=S, Se). It is possible partly to control this cooperative phenomenon by photoexcitation of p-type CuInS2 and p-type CuInSe2, semiconductor electrodes. With illumination as a key factor in the control of cooperative phenomena it should be possible to explore non-linear photoelectrochemical mechanisms with possible applications to solar energy conversion. The cooperative phenomenon studied involves the interaction of electrons with copper (in oxidation states I, II and III) and oxygen and thus might be related to the cooperative mechanism causing high-temperature superconduction in copper oxide phases.

Light Sustained Cooperative Mechanisms Observed with Liquid Junctions of Chalcopyrite Semiconductors

Cattarin S;
1988

Abstract

Electrochemical oscillations previously shown to occur during hydrogen peroxide reduction of natural samples of copper-containing sulfides (e.g. Cu5FeS4) have also been produced with synthetic chalcopyrites (CuMeX2 with Me=Fe, In, X=S, Se). It is possible partly to control this cooperative phenomenon by photoexcitation of p-type CuInS2 and p-type CuInSe2, semiconductor electrodes. With illumination as a key factor in the control of cooperative phenomena it should be possible to explore non-linear photoelectrochemical mechanisms with possible applications to solar energy conversion. The cooperative phenomenon studied involves the interaction of electrons with copper (in oxidation states I, II and III) and oxygen and thus might be related to the cooperative mechanism causing high-temperature superconduction in copper oxide phases.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/5578
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