Specific Process Knowledge/Doping: Difference between revisions
Jump to navigation
Jump to search
THIS PAGE IS UNDER CONSTRUCTION
| Line 32: | Line 32: | ||
![[Specific Process Knowledge/Thin_film_deposition/PECVD|PECVD doped thin film]] | ![[Specific Process Knowledge/Thin_film_deposition/PECVD|PECVD doped thin film]] | ||
![[Specific Process Knowledge/Thin_film_deposition/Furnace_LPCVD_PolySilicon|Doped Poly Si]] | ![[Specific Process Knowledge/Thin_film_deposition/Furnace_LPCVD_PolySilicon|Doped Poly Si]] | ||
!Ion implantation | |||
|- | |- | ||
| Line 41: | Line 42: | ||
|Deposition of doped thin film (oxides or nitrides). A high temperature step to drive in and redistribute the dopants in the material is required. This is typically done at 800°C - 1150°C in either high temperature annealing furnaces (C1 or C3) or by rapid thermal annealing. The doped glass can afterwards be removed in a BHF etch. | |Deposition of doped thin film (oxides or nitrides). A high temperature step to drive in and redistribute the dopants in the material is required. This is typically done at 800°C - 1150°C in either high temperature annealing furnaces (C1 or C3) or by rapid thermal annealing. The doped glass can afterwards be removed in a BHF etch. | ||
|Dopants introduced by in-situ doping of poly/amorphous Si. In some cases you need a high temperature step to redistribute the dopants in the material and alter the crystallinity. This is typically done at 800°C - 1150°C in either high temperature annealing furnaces (C1 or C3) or by rapid thermal annealing. | |Dopants introduced by in-situ doping of poly/amorphous Si. In some cases you need a high temperature step to redistribute the dopants in the material and alter the crystallinity. This is typically done at 800°C - 1150°C in either high temperature annealing furnaces (C1 or C3) or by rapid thermal annealing. | ||
|Dopant ions are implanted into the substrate by a high-energy ion beam. Contrary the other doping techniques the doping concentration has a peak inside the substrate when introduced by ion-implantation. Ion implantation cannot be done at Danchip but IBS (Ion Beam Services) offers ion-beam implantation as a service. See more at the homepage of IBS: http://www.ion-beam-services.com/about_us.htm. When wafers return from Ion implantation they need a clean before entering the cleanroom. Activation and redistribution of the dopants is required and is done by a high temperature anneal (600°C-1000°C) in the high temperature furnaces or by rapid thermal anneal. | |||
|- | |- | ||
| Line 54: | Line 56: | ||
| | | | ||
*560°C - 620°C | *560°C - 620°C | ||
| | |||
*Room temperature | |||
|- | |- | ||
| Line 70: | Line 74: | ||
*Phosphorous (PH<sub>3</sub>) | *Phosphorous (PH<sub>3</sub>) | ||
*Boron (B<sub>2</sub>H<sub>6</sub> or BCl<sub>3</sub>) | *Boron (B<sub>2</sub>H<sub>6</sub> or BCl<sub>3</sub>) | ||
| | |||
*See http://www.ion-beam-services.com/about_us.htm. | |||
|- | |- | ||
| Line 89: | Line 95: | ||
| | | | ||
*100 mm wafers (Boron and Phosphorous) | *100 mm wafers (Boron and Phosphorous) | ||
*150 mm wafers (only Boron) | *150 mm wafers (only Boron) | ||
| | |||
*See http://www.ion-beam-services.com/about_us.htm. | |||
|- | |- | ||
| Line 115: | Line 123: | ||
*Oxide | *Oxide | ||
*Nitride | *Nitride | ||
| | |||
*See http://www.ion-beam-services.com/about_us.htm. | |||
|- | |- | ||
|} | |} | ||
Revision as of 16:39, 13 November 2014
THIS PAGE IS UNDER CONSTRUCTION
Feedback to this page: click here
Doping your wafer
This page is about doping your wafer or making a thin film layer doped with boron, phosphorous or Germanium.
- Dope with Phosphorous - Doping Silicon wafers with phosphorous by thermal predeposition and drive-in
- Dope with Boron - Doping Silicon wafers with boron by thermal predeposition and drive-in
- Furnace LPCVD PolySilicon - Deposition of PolySi doped with B or P
- PECVD - Making boron glass (BSG), phosphorus glass (PSG), boron-phosphorous glass PBSG or germanium doped glass
- Ion implantation
Comparison of different doping processes
| Phosphorous predep | Boron predep | PECVD doped thin film | Doped Poly Si | Ion implantation | |
|---|---|---|---|---|---|
| Generel description | Dopants introduced by diffusion from gas-phase (POCl3). A thin phosphorous glass is formed on the substrate and phosphorous atoms are driven in. The phosphorous glass is afterward removed by a short BHF etch. Often further annealing is desired in order to redistribute the dopants in the material. This is done at 800°C - 1150°C in either high temperature annealing furnaces or by rapid thermal annealing. | Dopants introduced by diffusion from solid source wafers containing B2O3. A boron glass is formed on the substrate and boron atoms are driven in. The boron glass is afterward removed by a low temperature oxidation process (1 hour at 800°C-900°C) in the boron drive in furnace (A1) followed by a BHF etch. Often further annealing is desired in order to redistribute the dopants in the material. This is done at 800°C - 1150°C in either high temperature annealing furnaces or by rapid thermal annealing. | Deposition of doped thin film (oxides or nitrides). A high temperature step to drive in and redistribute the dopants in the material is required. This is typically done at 800°C - 1150°C in either high temperature annealing furnaces (C1 or C3) or by rapid thermal annealing. The doped glass can afterwards be removed in a BHF etch. | Dopants introduced by in-situ doping of poly/amorphous Si. In some cases you need a high temperature step to redistribute the dopants in the material and alter the crystallinity. This is typically done at 800°C - 1150°C in either high temperature annealing furnaces (C1 or C3) or by rapid thermal annealing. | Dopant ions are implanted into the substrate by a high-energy ion beam. Contrary the other doping techniques the doping concentration has a peak inside the substrate when introduced by ion-implantation. Ion implantation cannot be done at Danchip but IBS (Ion Beam Services) offers ion-beam implantation as a service. See more at the homepage of IBS: http://www.ion-beam-services.com/about_us.htm. When wafers return from Ion implantation they need a clean before entering the cleanroom. Activation and redistribution of the dopants is required and is done by a high temperature anneal (600°C-1000°C) in the high temperature furnaces or by rapid thermal anneal. |
| Process Temperature |
|
|
|
|
|
| Dopant |
|
|
|
|
|
| Substrate size |
|
|
|
|
|
| Allowed materials |
|
|
|
|
Ion implantation
Ion implantation cannot be done at Danchip. IBS offers ion-beam implantation as a service. See more at the homepage of IBS: http://www.ion-beam-services.com/about_us.htm When wafers return from Ion implantation they need a clean before entering the cleanroom. Activation and redistribution of the dopants is required and is done by a high temperature anneal in the high temperature furnaces or by rapid thermal anneal.