Advanced hydrogenation of silicon solar cells
US-2015111333-A1 · Apr 23, 2015 · US
Advanced hydrogenation of silicon solar cells
US9847443B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-9847443-B2 |
| Application number | US-201615204813-A |
| Country | US |
| Kind code | B2 |
| Filing date | Jul 7, 2016 |
| Priority date | May 21, 2012 |
| Publication date | Dec 19, 2017 |
| Grant date | Dec 19, 2017 |
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Abstract
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A method of hydrogenation of a silicon photovoltaic junction device is provided, the silicon photovoltaic junction device comprising p-type silicon semiconductor material and n-type silicon semiconductor material forming at least one p-n junction. The method comprises: i) ensuring that any silicon surface phosphorus diffused layers through which hydrogen must diffuse have peak doping concentrations of 1×10 20 atoms/cm 3 or less and silicon surface boron diffused layers through which hydrogen must diffuse have peak doping concentrations of 1×10 19 atoms/cm 3 or less; ii) Providing one or more hydrogen sources accessible by each surface of the device; and iii) Heating the device, or a local region of the device to at least 40° C. while simultaneously illuminating at least some and/or advantageously all of the device with at least one light source whereby the cumulative power of all the incident photons with sufficient energy to generate electron hole pairs within the silicon (in other words photons with energy levels above the bandgap of silicon of 1.12 eV) is at least 20 mW/cm 2 .
First claim
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The invention claimed is: 1. An apparatus processing a semiconductor wafer for use in the fabrication of a photovoltaic device, the apparatus comprising: a heating zone operable to heat at least a region of the semiconductor wafer to at least 100° C. in the presence of a hydrogen source; and a cooling zone comprising a first illumination means configured to illuminate a surface of the semiconductor wafer with photons during cooling of the semiconductor wafer. 2. The apparatus of claim 1 , wherein the hydrogen source is internal to the semiconductor wafer or located external to the semiconductor wafer. 3. The apparatus of claim 1 , wherein the cumulative power of all of the photons incident on the semiconductor wafer surface with sufficient energy to generate electron hole pairs within the semiconductor is at least 20 mW/cm 2 . 4. The apparatus of claim 1 , wherein the heating zone comprises a second illumination means configured to illuminate the surface of the semiconductor wafer with photons during heating of the semiconductor wafer. 5. The apparatus of claim 4 , wherein the first illumination means generates less heat than the second illumination means. 6. The apparatus of claim 1 , further comprising a transfer mechanism for carrying a semiconductor wafer through the heating zone and the cooling zone. 7. The apparatus of claim 6 , wherein the transfer mechanism is a belt. 8. The apparatus of claim 1 , wherein the first illumination means does not generate infra-red light. 9. The apparatus of claim 1 , wherein the first illumination means is pulsed to reduce heat output. 10. The apparatus of claim 1 , wherein the first illumination means comprises one or more lasers or one or more LEDs. 11. The apparatus of claim 1 , wherein the cooling zone is actively cooled. 12. The apparatus of claim 11 , wherein the cooling zone is actively cooled by passing air through the cooling zone. 13. The apparatus of claim 12 , wherein the air is cooled before being passed through the cooling zone. 14. The apparatus of claim 1 , wherein the heating zone comprises one or more heat lamps. 15. The apparatus of claim 1 , wherein the heating zone comprises one or more plate heaters configured to direct heat from beneath the belt to heat the semiconductor wafer being carried on the belt. 16. An apparatus for processing a semiconductor wafer for use in the fabrication of a photovoltaic device, the apparatus comprising: a heating zone comprising one or more plate heaters operable to heat at least a region of the semiconductor wafer to at least 100° C. in the presence of a hydrogen source; a cooling zone; and wherein the heating zone further comprises a first illuminating means configured to illuminate a surface of the semiconductor wafer with photons during heating of the semiconductor wafer. 17. The apparatus of claim 16 , wherein the hydrogen source is internal to the semiconductor wafer or located external to the semiconductor wafer. 18. The apparatus of claim 16 , wherein the cumulative power of all of the photons incident on the semiconductor wafer surface with sufficient energy to generate electron hole pairs within the semiconductor is at least 20 mW/cm 2 . 19. The apparatus of claim 16 , wherein the cooling zone comprises a second illumination means configured to illuminate the surface of the semiconductor wafer with photons during cooling of the semiconductor wafer. 20. The apparatus of claim 16 , wherein the second illumination means generates less heat than the first illumination means. 21. The apparatus of claim 16 , further comprising a transfer mechanism for carrying a semiconductor wafer through the heating zone and the cooling zone. 22. The apparatus of claim 21 , wherein the transfer mechanism is a belt. 23. The apparatus of claim 16 , wherein the second illumination means does not generate infra-red light. 24. The apparatus of claim 16 , wherein the second illumination means is pulsed to reduce heat output. 25. The apparatus of claim 16 , wherein the second illumination means comprises one or more lasers or one or more LEDs. 26. The apparatus of claim 16 , wherein the cooling zone is actively cooled. 27. The apparatus of claim 26 , wherein the cooling zone is actively cooled by passing air through the cooling zone. 28. The apparatus of claim 27 , wherein the air is cooled before being passed through the cooling zone. 29. A method for processing a semiconductor wafer for use in the fabrication of a photovoltaic device, the method comprising: transporting the semiconductor wafer through a heating zone and subsequently a cooling zone; heating, in the presence of a hydrogen source, at least a region of the semiconductor wafer to at least 100° C. in the heating zone; illuminating a surface of the semiconductor wafer with photons during cooling of the semiconductor wafer in the cooling zone. 30. The method of claim 29 , wherein the hydrogen source is internal to the semiconductor wafer or located external to the semiconductor wafer. 31. The method of claim 29 , wherein the cumulative power of all of the photons incident on the semiconductor wafer surface with sufficient energy to generate electron hole pairs within the semiconductor is at least 20 mW/cm 2 . 32. The method of claim 29 , further comprising illuminating the surface of the semiconductor wafer with photons in the heating zone. 33. The method of claim 29 , wherein the semiconductor wafer is illuminated in the cooling zone with a pulsed illumination source. 34. The method of claim 29 , wherein the semiconductor wafer is illuminated in the cooling zone with one or more lasers or one or more LEDs. 35. The method of claim 29 , wherein the semiconductor wafer is transported through the heating zone by a belt. 36. The method of claim 29 , wherein the cooling in the cooling zone comprises active cooling of the semiconductor wafer. 37. The method of claim 36 , wherein the active cooling comprises passing air through the cooling zone. 38. The method of claim 37 , wherein the active cooling further comprises cooling the air before passing the air through the cooling zone. 39. The method of claim 29 , wherein the at least one region of the semiconductor wafer is heated using one or more heat lamps disposed in the heating zone. 40. The method of claim 29 , wherein the at least one region of the semiconductor wafer is heated using one or more plate heaters configured to direct heat from beneath the belt to heat the at least one region of the semiconductor wafer.
Assignees
Inventors
Classifications
- H10P95/94Primary
Hydrogenation or deuterisation, e.g. using atomic hydrogen from a plasma · CPC title
Mechanical details, e.g. rollers or belts · CPC title
mainly by radiation · CPC title
mainly by convection · CPC title
Photovoltaic [PV] · CPC title
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Frequently asked questions
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- What does patent US9847443B2 cover?
- A method of hydrogenation of a silicon photovoltaic junction device is provided, the silicon photovoltaic junction device comprising p-type silicon semiconductor material and n-type silicon semiconductor material forming at least one p-n junction. The method comprises: i) ensuring that any silicon surface phosphorus diffused layers through which hydrogen must diffuse have peak do…
- Who is the assignee on this patent?
- Newsouth Innovations Pty Ltd
- What technology area does this patent fall under?
- Primary CPC classification H10P95/94. Mapped technology areas include Electricity.
- When was this patent published?
- Publication date Tue Dec 19 2017 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 1 related publication on this page (citations in our corpus or others sharing the same primary CPC).