A solar cell includes a doped layer disposed on a first surface of a semiconductor substrate, a doped polysilicon layer disposed in a first region of a second surface of the semiconductor substrate, a doped area disposed in a second region of the second surface, and an insulating layer covering the
A solar cell includes a doped layer disposed on a first surface of a semiconductor substrate, a doped polysilicon layer disposed in a first region of a second surface of the semiconductor substrate, a doped area disposed in a second region of the second surface, and an insulating layer covering the doped polysilicon layer and the doped area. The insulating layer has openings exposing portions of the doped polysilicon layer and the doped layer, and the doped polysilicon layer and doped layer are respectively connected to a first electrode and a second electrode through the openings. The semiconductor substrate and the doped layer have a first doping type. One of the doped polysilicon layer and the doping area has a second doping type, and the other one of the doped polysilicon layer and the doping area has the first doping type which is opposite to the second doping type.
대표청구항▼
1. A solar cell, comprising: a semiconductor substrate, having a first surface and a second surface, wherein the semiconductor substrate has a first doping type, and the second surface has a first region and a second region;a doped layer, disposed on the first surface of the semiconductor substrate,
1. A solar cell, comprising: a semiconductor substrate, having a first surface and a second surface, wherein the semiconductor substrate has a first doping type, and the second surface has a first region and a second region;a doped layer, disposed on the first surface of the semiconductor substrate, the doped layer having the first doping type;a doped polysilicon layer, disposed on the second surface of the semiconductor substrate and in the first region, wherein the doped polysilicon layer exposes the second region of the second surface of the semiconductor substrate;a doped area, disposed on the second surface of the semiconductor substrate and in the second region, wherein one of the doped polysilicon layer and the doped area has a second doping type, the other one of the doped polysilicon layer and the doped area has the first doping type, and the second doping type is opposite to the first doping type;an insulating layer covering and disposed on the doped polysilicon layer and the doped area, the insulating layer having at least one first opening exposing a portion of the doped polysilicon layer and at least one second opening exposing a portion of the doped area;at least one first electrode, disposed on a surface of the insulating layer and connected to the doped polysilicon layer through the first opening; andat least one second electrode, disposed on the surface of the insulating layer and connected to the doped area through the second opening. 2. The solar cell of claim 1, wherein the insulating layer comprises: a first insulating layer, disposed on a surface of the doped polysilicon layer and having a first sub-opening exposing the portion of the doped polysilicon layer and a second sub-opening exposing at least one portion of the doped area; anda second insulating layer, covering and disposed on the first insulating layer and the doped area and having a third sub-opening corresponding to the first sub-opening exposing the portion of the doped polysilicon layer and a fourth sub-opening corresponding to the second sub-opening exposing the portion of the doped area;wherein the first insulating layer and the second insulating layer are composed of different materials, the first sub-opening and the third sub-opening compose the first opening, and the second sub-opening and the fourth sub-opening compose the second opening. 3. The solar cell of claim 2, wherein a polarity of a fixed oxide charge (FOC) of the first insulating layer is opposite to a polarity of the FOC of the second insulating layer. 4. The solar cell of claim 3, wherein the doped area has the first doping type and the doped polysilicon layer has the second doping type, and the polarity of the FOC of the first insulating layer is opposite to a polarity of the second doping type and the polarity of the FOC of the second insulating layer is opposite to a polarity of the first doping type. 5. The solar cell of claim 3, wherein the doped polysilicon layer has the first doping type and the doped area has the second doping type, and the polarity of the FOC of the first insulating layer is opposite to a polarity of the first doping type and the polarity of the FOC of the second insulating layer is opposite to a polarity of the second doping type. 6. The solar cell of claim 2, further comprising an amorphous silicon layer disposed between the first insulating layer and the second insulating layer, between a side of the doped polysilicon layer and the second insulating layer, and between the doped area and the semiconductor substrate. 7. The solar cell of claim 1, wherein the second surface of the semiconductor substrate further includes at least one trench within the second region, and the doped area is disposed in the trench. 8. The solar cell of claim 7, further comprising an amorphous silicon layer disposed between the doped polysilicon layer and the insulating layer and between the doped area and the semiconductor substrate. 9. The solar cell of claim 1, further comprising an oxide layer disposed between the second region of the second surface of the semiconductor substrate and the doped polysilicon layer. 10. The solar cell of claim 1, further comprising an anti-reflection coating (ARC) layer disposed on the surface of the doped layer.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Solomon Allen L. (Fullerton CA), Back contacted MIS photovoltaic cell.
Mulligan,William P.; Cudzinovic,Michael J.; Pass,Thomas; Smith,David; Kaminar,Neil; McIntosh,Keith; Swanson,Richard M., Solar cell and method of manufacture.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.