Patent ID: 8227290

Claim:
A method for producing a single crystal silicon solar cell, the solar cell including a transparent insulator substrate and a single crystal silicon layer arranged on the transparent insulator substrate and acting as a light conversion layer, the method comprising at least the steps of: preparing the transparent insulator substrate and a single crystal silicon substrate having a first conductivity type, the transparent insulator substrate being made from a member selected from the group consisting of crystallized glass, borosilicate glass, and soda-lime glass; implanting at least one of hydrogen ions and rare gas ions into the single crystal silicon substrate through an ion implanting surface thereof to form an ion implanted layer in the single crystal silicon substrate; closely contacting the single crystal silicon substrate and the transparent insulator substrate with each other via a transparent adhesive while using the ion implanting surface as a bonding surface, the transparent adhesive being configured to contain at least one of an acrylic resin, an alicyclic acrylic resin, a liquid crystal polymer, a polycarbonate, and a polyethylene terephthalate; curing and maturing the transparent adhesive into a transparent adhesive layer, to bond the single crystal silicon substrate and the transparent insulator substrate to each other; applying an impact to the ion implanted layer to mechanically delaminate the single crystal silicon substrate thereat to leave a single crystal silicon layer; forming a plurality of diffusion regions having a second conductivity type at the delaminated surface side of the single crystal silicon layer, which conductivity type is different from the first conductivity type, in a manner that a plurality of p-n junctions are formed at least in the plane direction, and that the plurality of first conductivity-type regions and the plurality of second conductivity-type regions are present at the delaminated surface of the single crystal silicon layer; forming a plurality of first individual electrodes on the plurality of first conductivity-type regions of the single crystal silicon layer, respectively, and a plurality of second individual electrodes on the plurality of second conductivity-type regions, respectively; and forming a first collector electrode for connecting the plurality of first individual electrodes to one another and a second collector electrode for connecting the plurality of second individual electrodes to one another.