Specific Process Knowledge/Doping: Difference between revisions

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== Doping your wafer ==
== Doping your wafer ==


This page is about doping your wafer or making a thin film layer doped with boron, phosphor or Germane.
This page is about doping your wafer or making a thin film layer doped with boron, phosphorous or Germanium.


*[[Specific Process Knowledge/Thermal Process/Dope with Phosphorus|Dope with Phosphorus]] - Doping Silicon wafers with phosphorus by thermal predeposition and drive-in
*[[Specific Process Knowledge/Thermal Process/Dope with Phosphorous|Dope with Phosphorus]] - Doping Silicon wafers with phosphorous by thermal predeposition and drive-in
*[[Specific Process Knowledge/Thermal Process/Dope with Boron|Dope with Boron]] - Doping Silicon wafers with boron by thermal predeposition and drive-in
*[[Specific Process Knowledge/Thermal Process/Dope with Boron|Dope with Boron]] - Doping Silicon wafers with boron by thermal predeposition and drive-in
*[[Specific Process Knowledge/Thin film deposition/Furnace LPCVD PolySilicon|Furnace LPCVD PolySilicon]] - Deposition of PolySi doped with B or P
*[[Specific Process Knowledge/Thin film deposition/Furnace LPCVD PolySilicon|Furnace LPCVD PolySilicon]] - Deposition of PolySi doped with B or P
*[[Specific Process Knowledge/Thin film deposition/PECVD|PECVD]] - Making boron glass (BSG), phosphorus glass (PSG), boron-phosphorus glass PBSG or germanium doped glass
*[[Specific Process Knowledge/Thin film deposition/PECVD|PECVD]] - Making boron glass (BSG), phosphorus glass (PSG), boron-phosphorous glass PBSG or germanium doped glass
*[[Specific Process Knowledge/Doping#Ion implantation|Ion implantation]]
*[[Specific Process Knowledge/Doping#Ion implantation|Ion implantation]]


Revision as of 10:46, 8 October 2014

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Doping your wafer

This page is about doping your wafer or making a thin film layer doped with boron, phosphorous or Germanium.



Comparison of different doping processes

Phosphorous predep Boron predep PECVD doped thin film Doped Poly Si
Generel description Dopants introduced by diffusion from gas-phase (POCL) Dopants introduced by diffusion from solid source wafers Deposition of doped thin film (oxides or nitrides) Dopants introduced by in-situ doping of poly/amorphous Si
Process Temperature1
  • 900°C - 1150°C
  • 1050°C - 1125°C
  • 300°C
  • 560°C - 620°C
Dopant
  • Phospor (POCL)
  • Boron (solid source wafers containing B2O3)
  • Phosphor (PH3)
  • Boron (B2H6)
  • Germane (GeH4)
  • Phosphor (PH3)
  • Boron (B2H6 or BCl3)
Substrate size
  • 100 mm wafers
  • 100 mm wafers
  • small samples
  • 50 mm wafers
  • 100 mm wafers
  • 150 mm wafers
  • 100 mm wafers (Boron and Phosphor)
  • 150 mm wafers (only Boron)
Allowed materials
  • Silicon
  • Poly/amorphous silicon
  • Oxide
  • Nitride
  • Silicon
  • Poly/amorphous silicon
  • Oxide
  • Nitride
  • Silicon
  • Poly/amorphous silicon
  • Oxide
  • Nitride
  • Silicon
  • Poly/amorphous silicon
  • Oxide
  • Nitride

1 In most cases you need a high temperature step to drive in and redistribute the dopants in the material. This is typically done at 800°C - 1100°C in either high temperature annealing furnaces or by rapid thermal annealing.


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

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