A back-contacting solar cell includes: a silicon substrate (1), wherein a shadow face of the silicon substrate (1) is delimited into a first region and a second region (2), and the second region (2) is doped to form a second-charge-carrier collecting end; a metal-chalcogen-compound layer (4), wherein the metal-chalcogen-compound layer (4) is deposited within at least the first region of the silicon substrate (1), and a region of the metal-chalcogen-compound layer (4) that corresponds to the first region forms a first-charge-carrier collecting end; a first electrode (5), wherein the first electrode (5) is correspondingly provided on the first-charge-carrier collecting end; and a second electrode (6), wherein the second electrode (6) is correspondingly provided within a region that corresponds to the second region (2). The collection and transferring of the first charge carrier are realized by using the first-charge-carrier collecting end.

A back-contacting solar cell includes: a silicon substrate (1), wherein a shadow face of the silicon substrate (1) is delimited into a first region and a second region (2), and the second region (2) is doped to form a second-charge-carrier collecting end; a metal-chalcogen-compound layer (4), wherein the metal-chalcogen-compound layer (4) is deposited within at least the first region of the silicon substrate (1), and a region of the metal-chalcogen-compound layer (4) that corresponds to the first region forms a first-charge-carrier collecting end; a first electrode (5), wherein the first electrode (5) is correspondingly provided on the first-charge-carrier collecting end; and a second electrode (6), wherein the second electrode (6) is correspondingly provided within a region that corresponds to the second region (2). The collection and transferring of the first charge carrier are realized by using the first-charge-carrier collecting end.

Embodiments of the present disclosure provide a solar cell and a solar cell module. The solar cell includes a first region and a second region, and further includes a substrate having a first surface and a second surface; a tunneling layer covering the second surface; a first emitter disposed on part of the tunneling layer in the first region; and a second emitter disposed on part of the tunneling layer in the second region and on the first emitter, a conductivity type of the second emitter being different from a conductivity type of the first emitter. The solar cell further includes a first electrode disposed in the first region and configured to electrically connect with the first emitter by penetrating through the second emitter; and a second electrode disposed in the second region and configured to electrically connect with the second emitter.

A solar cell of an embodiment includes a p-electrode, an n-electrode, a p-type light-absorbing layer located between the p-electrode and the n-electrode and mainly containing a cuprous oxide, and a first n-type layer which is located between the p-type light-absorbing layer and the n-electrode, which mainly contains a compound represented by Ga.sub.x1M1.sub.x2M2.sub.x3M3.sub.x4M4.sub.x5O.sub.x6, the M1 being Hf and/or Zr, the M2 being one or more selected from the group consisting of In, Ti, and Zn, the M3 being Al and/or B, the M4 is one or more selected from the group consisting of Sn, Si, and Ge, the x1, the x2, and the x6 being more than 0, the x3, the x4, and the x5 being 0 or more, and the x6 when a sum of the x1, the x2, the x3, the x4, and the x5 is 2 being 3.0 or more and 3.8 or less.

A solar cell of an embodiment includes a p-electrode, an n-electrode, a p-type light-absorbing layer located between the p-electrode and the n-electrode and mainly containing a cuprous oxide, and a first n-type layer which is located between the p-type light-absorbing layer and the n-electrode, which mainly contains a compound represented by Ga.sub.x1M1.sub.x2M2.sub.x3M3.sub.x4M4.sub.x5O.sub.x6, the M1 being Hf and/or Zr, the M2 being one or more selected from the group consisting of In, Ti, and Zn, the M3 being Al and/or B, the M4 is one or more selected from the group consisting of Sn, Si, and Ge, the x1, the x2, and the x6 being more than 0, the x3, the x4, and the x5 being 0 or more, and the x6 when a sum of the x1, the x2, the x3, the x4, and the x5 is 2 being 3.0 or more and 3.8 or less.

A solar cell of an embodiment includes: a p-electrode in which a first p-electrode and a second p-electrode are laminated; a p-type light-absorbing layer in direct contact with the first p-electrode; an n-type layer in direct contact with the p-type light-absorbing layer; and an n-electrode. The first p-electrode is disposed between the p-type light-absorbing layer and the second p-electrode. The p-type light-absorbing layer is disposed between the n-type layer and the first p-electrode. The n-type layer is disposed between the p-type light-absorbing layer and the n-electrode. The first p-electrode includes a metal oxide containing Sn as a main component.

A solar cell of an embodiment includes: a p-electrode in which a first p-electrode and a second p-electrode are laminated; a p-type light-absorbing layer in direct contact with the first p-electrode; an n-type layer in direct contact with the p-type light-absorbing layer; and an n-electrode. The first p-electrode is disposed between the p-type light-absorbing layer and the second p-electrode. The p-type light-absorbing layer is disposed between the n-type layer and the first p-electrode. The n-type layer is disposed between the p-type light-absorbing layer and the n-electrode. The first p-electrode includes a metal oxide containing Sn as a main component.

A solar cell of an embodiment includes a p-electrode, an n-electrode, a p-type light-absorbing layer located between the p-electrode and the n-electrode and mainly containing a cuprous oxide, and an n-type layer includes a first n-type layer which is located between the p-type light-absorbing layer and the n-electrode and mainly contains a compound represented by Ga.sub.x1M1.sub.x2M2.sub.x3M3.sub.x4O.sub.x5, the M1 being Al and/or B, the M2 being one or more selected from the group consisting of In, Ti, Zn, Hf, and Zr, the M3 being one or more selected from the group consisting of Sn, Si, and Ge, the x1 and the x5 being more than 0, the x2, the x3, and the x4 being 0 or more, and the x5 when a sum of the x1, the x2, the x3, and the x4 is 2 being 3.0 or more and 3.8 or less, and a second n-type layer which is located between the first n-type layer and the n-electrode and mainly contains a compound represented by Ga.sub.y1M1.sub.y2M2.sub.y3M3.sub.y4O.sub.y5, the y1 and the y5 being more than 0, the y2, the y3, and the y4 being 0 or more, and the y5 when a sum of the y1, the y2, the y3, and the y4 is 2 being 3.0 or more and 3.8 or less, or a first n-type region which is located between the p-type light-absorbing layer and the n-electrode and mainly contains a compound represented by Ga.sub.x1M1.sub.x2M2.sub.x3M3.sub.x4O.sub.x5, the M1 being Al and/or B, the M2 being one or more selected from the group consisting of In, Ti, Zn, Hf, and Zr, the M3 being one or more selected from the group consisting of Sn, Si, and Ge, the x1 and the x5 being more than 0, the x2, the x3, and the x4 being 0 or more, and the x5 when a sum of the x1, the x2, the x3, and the x4 is 2 being 3.0 or more and 3.8 or less, and a second n-type region which is located between the first n-type region and the n-electrode and mainly contains a compound represented by Ga.sub.y1M1.sub.y2M2.sub.y3M3.sub.y4O.sub.y5, the y1 and the y5 being more than 0, the y2, the y3, and the y4 being 0 or more, and the y5 when a sum of the y1, the y2, the y3, and the y4 is 2 being 3.0 or more and 3.8 or less, wherein (x2+x3) is larger than (y2+y3).

A solar cell of an embodiment includes a p-electrode, an n-electrode, a p-type light-absorbing layer located between the p-electrode and the n-electrode and mainly containing a cuprous oxide, and an n-type layer includes a first n-type layer which is located between the p-type light-absorbing layer and the n-electrode and mainly contains a compound represented by Ga.sub.x1M1.sub.x2M2.sub.x3M3.sub.x4O.sub.x5, the M1 being Al and/or B, the M2 being one or more selected from the group consisting of In, Ti, Zn, Hf, and Zr, the M3 being one or more selected from the group consisting of Sn, Si, and Ge, the x1 and the x5 being more than 0, the x2, the x3, and the x4 being 0 or more, and the x5 when a sum of the x1, the x2, the x3, and the x4 is 2 being 3.0 or more and 3.8 or less, and a second n-type layer which is located between the first n-type layer and the n-electrode and mainly contains a compound represented by Ga.sub.y1M1.sub.y2M2.sub.y3M3.sub.y4O.sub.y5, the y1 and the y5 being more than 0, the y2, the y3, and the y4 being 0 or more, and the y5 when a sum of the y1, the y2, the y3, and the y4 is 2 being 3.0 or more and 3.8 or less, or a first n-type region which is located between the p-type light-absorbing layer and the n-electrode and mainly contains a compound represented by Ga.sub.x1M1.sub.x2M2.sub.x3M3.sub.x4O.sub.x5, the M1 being Al and/or B, the M2 being one or more selected from the group consisting of In, Ti, Zn, Hf, and Zr, the M3 being one or more selected from the group consisting of Sn, Si, and Ge, the x1 and the x5 being more than 0, the x2, the x3, and the x4 being 0 or more, and the x5 when a sum of the x1, the x2, the x3, and the x4 is 2 being 3.0 or more and 3.8 or less, and a second n-type region which is located between the first n-type region and the n-electrode and mainly contains a compound represented by Ga.sub.y1M1.sub.y2M2.sub.y3M3.sub.y4O.sub.y5, the y1 and the y5 being more than 0, the y2, the y3, and the y4 being 0 or more, and the y5 when a sum of the y1, the y2, the y3, and the y4 is 2 being 3.0 or more and 3.8 or less, wherein (x2+x3) is larger than (y2+y3).

A solar cell of an embodiment includes: a substrate; an n-electrode; an n-type layer; a p-type light absorption layer which is a semiconductor of a Cu-based oxide; and a p-electrode. The n-electrode is disposed between the substrate and the n-type layer. The n-type layer is disposed between the n-electrode and the p-type light absorption layer. The p-type light absorption layer is disposed between the n-type layer and the p-electrode. The n-type layer is disposed closer to a light incident side than the p-type light absorption layer. The substrate is a single substrate included in the solar cell.