FIELD: electricity.
SUBSTANCE: invention is related to usage of graphene as a transparent conductive coating (TCC). According to the invention a solar cell is suggested with a glass substrate; the first conductive graphene-based layer is placed directly or indirectly on the glass substrate; the first semiconductor layer contacting the first conductive graphene-based layer; at least one absorbing layer placed directly or indirectly on the first semiconductor layer; the second semiconductor layer placed directly or indirectly on the above at least one absorbing layer; the second conductive graphene-based layer contacting the second semiconductor layer; and a rear contact placed directly or indirectly on the second conductive graphene-based layer, at that each layer out of the above first and second conductive graphene-based layers is doped by dopant impurities of an n-type and a p-type initially, and at that at least one of the above first and second conductive graphene-based layers is doped by the dopant impurities of the n-type and the p-type, which are introduced into its volume out of a solid material source of the dopant impurities. The invention also suggests a photoelectric device, a touch panel subunit and a device with a touch panel.
EFFECT: invention allows usage of smooth and patterned electrode materials with good stability, high transparency and excellent conductivity during manufacturing of photoelectric devices.
17 cl, 15 dwg, 1 tbl
