Specific Process Knowledge/Thermal Process/Annealing: Difference between revisions

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Annealing

At DTU Nanolab we have five furnaces and two RTP (rapid thermal processor) that can be used for annealing: Anneal-Oxide furnace (C1), Anneal-bond furnace (C3), Al_anneal furnace (C4), Multipurpose Anneal furnace, RTP2 Jipelec and RTP Annealsys (last one, reserved to research). Annealing normally takes place in an N₂ atmosphere, or it can be done in H₂ or a H₂-N₂ gas mixture in the Multipurpose Anneal furnace. PECVD PBSG glass is annealed in a wet atmosphere which will also oxidize the silicon substrate.

A 20-minute N₂ annealing step is also included in all recipes on the oxidation furnace, this annealing is done after the oxidation.

Comparison of the annealing furnaces

	Anneal Oxide furnace (C1)	Anneal-Bond furnace (C3)	Aluminium Anneal furnace (C4)	Resist Pyrolysis (research tool)	RTP2 Jipelec	RTP Annealsys (research tool)
General description	Annealing of 4" and 6" wafers. Annealing of wafers from the LPCVD furnaces and from PECVD4.	Annealing of wafers from Wafer Bonder 02 and from and PECVD4 and PECVD3.	Annealing of wafers and samples with Al and ALD deposited AL₂O₃ and TiO₂	Resist pyrolysis	Rapid thermal processing, usually, annealing (RTA).	Rapid thermal processing: RTA (annealing), RTO (oxidation), RTN (nitridation) and RTH (hydrogenation).
Annealing gas	N₂	N₂	N₂ (Forming gas, 5% H₂/95% N₂ - Being tested)	N₂ (H₂-N₂ gas mixture) Vacuum is possible	Ar N₂ Low vacuum is possible (min. 2/3 mbar)	Ar NH₃ O₂ 5% H₂/Ar High vacuum is possible (10^-6 mbar)
Process temperature	700 ^oC - 1100 ^oC	700 ^oC - 1150 ^oC	350 ^oC - 1150 ^oC Max 500 ^oC for wafers and samples with Al	Vacuum: 20 ^oC - 1050 ^oC¨ No vacuum: 20 ^oC - 1050 ^oC	20 ^oC - 1200 ^oC Max. 100 ^oC/s with carrier wafer or sample wafer Max. 50 ^oC/s with SiC-coated graphite susceptor	700 ^oC - 1200 ^oC Max. 150 ^oC/s
Substrate and Batch size	1-30 50 mm wafers 1-30 100 mm wafers 1-30 150 mm wafer (Small samples on a carrier wafer, horizontal)	1-30 50 mm wafers 1-30 100 mm wafers Small samples on a carrier wafer, horizontal	1-30 50 mm wafers 1-30 100 mm wafers 1 150 mm wafer Small samples on a carrier wafer, horizontal	1-30 50 mm, 100 mm or 150 mm wafers Small samples on a carrier wafer, horizontal	Single-wafer process Chips on carrier 50 mm, 100 mm or 150 mm wafers	Single-wafer process Chips on carrier 100 mm or 150 mm wafers
Allowed materials	All processed wafers have to be RCA cleaned, except wafers from LPCVD furnaces and PECVD4.	All processed wafers have to be RCA cleaned, except wafers from the Wafer Bonder 02 and from PECVD4 and PECVD3.	Wafers and samples with Al and ALD deposited AL₂O₃ and TiO₂	Samples for resist pyrolysis. No metals allowed	Silicon Silicon oxides and nitrides Quartz Metals - ask for permission III-V materials - below 440 °C, otherwise it can lead to outgassing of toxic gases.	Silicon Silicon Nitride Aluminum Oxide

@@ Line 1: / Line 1: @@
-'''Feedback to this page''': '''[mailto:labadviser@danchip.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.danchip.dtu.dk/index.php/Specific_Process_Knowledge/Thermal_Process/Annealing click here]'''
+'''Feedback to this page''': '''[mailto:labadviser@nanolab.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.nanolab.dtu.dk/index.php/Specific_Process_Knowledge/Thermal_Process/Annealing click here]'''
+''This page is written by DTU Nanolab  internal''
 ==Annealing==
-At Danchip we have five furnaces and an RTP (Rapid thermal annealing) that can be used annealing: Anneal-Oxide furnace (C1), Anneal-bond furnace (C3), Al_anneal furnace (C4), Multipurpose Anneal furnace, Noble furnace and Jipelec RTP. Annealing normally takes place in an N<sub>2</sub> atmosphere, or it can be done in H<sub>2</sub> or a H<sub>2</sub>-N<sub>2</sub> gas mixture in the Multipurpose Anneal furnace. PECVD PBSG glass is annealed in a wet atmosphere which will also oxidize the silicon substrate.
+At DTU Nanolab  we have five furnaces and two RTP (rapid thermal processor) that can be used for annealing: Anneal-Oxide furnace (C1), Anneal-bond furnace (C3), Al_anneal furnace (C4), Multipurpose Anneal furnace, RTP2 Jipelec and RTP Annealsys (last one, reserved to research). Annealing normally takes place in an N<sub>2</sub> atmosphere, or it can be done in H<sub>2</sub> or a H<sub>2</sub>-N<sub>2</sub> gas mixture in the Multipurpose Anneal furnace. PECVD PBSG glass is annealed in a wet atmosphere which will also oxidize the silicon substrate.
-A 20 minutes N<sub>2</sub> annealing step is also included in all recipes on the oxidation furnace, this annealing is done after the oxidation.
+A 20-minute N<sub>2</sub> annealing step is also included in all recipes on the oxidation furnace, this annealing is done after the oxidation.
 ==Comparison of the annealing furnaces==
 {|border="1" cellspacing="1" cellpadding="3" style="text-align:left;"
 |-
@@ Line 21: / Line 23: @@
 [[Specific Process Knowledge/Thermal Process/C4 Aluminium Anneal furnace|Aluminium Anneal furnace (C4)]]
 !
-[[Specific_Process_Knowledge/Thermal_Process/Furnace_Noble| Noble furnace]]
+[[Specific Process Knowledge/Thermal Process/Furnace: Multipurpose annealing|Resist Pyrolysis (research tool)]]
 !
-[[Specific_Process_Knowledge/Thermal_Process/Jipelec_RTP| Jipelec RTP]]
+[[Specific_Process_Knowledge/Thermal_Process/RTP Jipelec 2| RTP2 Jipelec]]
 !
-[[Specific Process Knowledge/Thermal Process/Furnace: Multipurpose annealing| Multipurpose Anneal Furnace]]
+[[Specific_Process_Knowledge/Thermal_Process/RTP Annealsys| RTP Annealsys (research tool)]]
 |-
@@ Line 33: / Line 35: @@
 |Annealing of 4" and 6" wafers. Annealing of wafers from the LPCVD furnaces and from PECVD4.
 |Annealing of wafers from Wafer Bonder 02 and from and PECVD4 and PECVD3.
-|Annealing of wafers with Al and ALD deposited AL2O3 and TiO2.
+|Annealing of wafers and samples with Al and ALD deposited AL<sub>2</sub>O<sub>3</sub> and TiO<sub>2</sub>
-|Annealing of almost all materials on silicon wafers.
+|Resist pyrolysis
-|Rapid thermal annealing
+|Rapid thermal processing, usually, annealing (RTA).
-|Annealing, oxidation and resist pyrolysis of different samples
+|Rapid thermal processing: RTA (annealing), RTO (oxidation), RTN (nitridation) and RTH (hydrogenation).
 |-
@@ Line 48: / Line 50: @@
 |
 *N<sub>2</sub>
+*(Forming gas, 5% H<sub>2</sub>/95% N<sub>2</sub> - Being tested)
 |
 *N<sub>2</sub>
+*(H<sub>2</sub>-N<sub>2</sub> gas mixture)
+*Vacuum is possible
 |
+*Ar
 *N<sub>2</sub>
-*Vacuum is possible
+*Low vacuum is possible (min. 2/3 mbar)
 |
-*N<sub>2</sub>
+*Ar
-*H<sub>2</sub>
+*NH<sub>3</sub>
-*H<sub>2</sub>-N<sub>2</sub> gas mixture
+*O<sub>2</sub>
-*Vacuum is possible
+*5% H<sub>2</sub>/Ar
+*High vacuum is possible (10<sup>-6</sup> mbar)
 |-
@@ Line 68: / Line 75: @@
 *700 <sup>o</sup>C - 1150 <sup>o</sup>C
 |
-*Up to 500 <sup>o</sup>C
+*350 <sup>o</sup>C - 1150 <sup>o</sup>C
+*Max 500 <sup>o</sup>C for wafers and samples with Al
 |
-*20 <sup>o</sup>C - 1000 <sup>o</sup>C
+*Vacuum: 20 <sup>o</sup>C - 1050 <sup>o</sup>C¨
+*No vacuum: 20 <sup>o</sup>C - 1050 <sup>o</sup>C
 |
-*20 <sup>o</sup>C - 1000 <sup>o</sup>C
+*20 <sup>o</sup>C - 1200 <sup>o</sup>C
-*Ramp up to 300 C/min
+* '''Max. 100 <sup>o</sup>C/s''' with '''carrier wafer''' or '''sample wafer'''
+* '''Max. 50 <sup>o</sup>C/s''' with SiC-coated graphite '''susceptor'''
 |
-*Vacuum: 20 <sup>o</sup>C - 1050 <sup>o</sup>C¨
+*700 <sup>o</sup>C - 1200 <sup>o</sup>C
-*No vacuum: 20 <sup>o</sup>C - 1100 <sup>o</sup>C
+*Max. 150 <sup>o</sup>C/s
 |-
@@ Line 83: / Line 93: @@
 !Substrate and Batch size
 |
-*Small samples on a carrier wafer, horizontal
 *1-30 50 mm wafers
 *1-30 100 mm wafers
-*1-30 150 mm wafers
+*1-30 150 mm wafer
+*(Small samples on a carrier wafer, horizontal)
 |
-*Small samples on a carrier wafer, horizontal
 *1-30 50 mm wafers
 *1-30 100 mm wafers
+*Small samples on a carrier wafer, horizontal
 |
 *1-30 50 mm wafers
 *1-30 100 mm wafers
+*1 150 mm wafer
+*Small samples on a carrier wafer, horizontal
 |
+*1-30 50 mm, 100 mm or 150 mm wafers
 *Small samples on a carrier wafer, horizontal
-*1-25 50 mm wafers
-*1-25 100 mm wafers, vertical and horizontal
 |
-*Small samples on a carrier wafer, horizontal
+*Single-wafer process
-*One 100 mm wafers on a carrier wafer
+*Chips on carrier
+*50 mm, 100 mm or 150 mm wafers
 |
-*1-30 50 mm, 100 mm or 150 mm wafers
+*Single-wafer process
-*1-50 200 mm wafers
+*Chips on carrier
-*Small samples on a carrier wafer, horizontal
+*100 mm or 150 mm wafers
 |-
@@ Line 111: / Line 123: @@
 !'''Allowed materials'''
 |
-*All processed wafers have to be RCA cleaned, except wafers from LPCVD furnaces and PECVD2.
+*All processed wafers have to be RCA cleaned, except wafers from LPCVD furnaces and PECVD4.
 |
 *All processed wafers have to be RCA cleaned, except wafers from the Wafer Bonder 02 and from PECVD4 and PECVD3.
 |
-*Wafers with Al
+*Wafers and samples with Al and ALD deposited AL<sub>2</sub>O<sub>3</sub> and TiO<sub>2</sub>
 |
-*Almost all materials, permission is needed.
+*Samples for resist pyrolysis.
+*No metals allowed
 |
-*III-V samples
+*Silicon
-*Silicon wafers
+*Silicon oxides and nitrides
-*Some metals
+*Quartz
+*Metals - ask for permission
+*III-V materials - '''below 440 °C''', otherwise it can lead to outgassing of toxic gases.
 |
-*Depends on the furnace quartz ware:
+*Silicon
-**Clean: Samples that have been RCA cleaned
+*Silicon Nitride
-**Metal: Almost all materials, permission is needed
+*Aluminum Oxide
-**Resist pyrolysis
 |-
 |}
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