Specific Process Knowledge/Thin film deposition/Deposition of Silicon: Difference between revisions

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'''Feedback to this page''': '''[mailto:labadviser@danchip.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.danchip.dtu.dk/index.php?title=Specific_Process_Knowledge/Thin_film_deposition/Deposition_of_Silicon&action=edit click here]'''  
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<i> Unless otherwise stated, this page is written by <b>DTU Nanolab internal</b></i>


PolySilicon can be deposited in several Danchip tools. Either it can be sputtered or be deposited in the PolySilicon furnace. In the chart below you can compare the two different deposition methods:
PolySilicon can be deposited in several Nanolab tools. It can be sputtered, e-beam evaporated or be deposited in the PolySilicon furnaces. In the chart below you can compare the different deposition methods:




==Deposition of PolySilicon using LPCVD==
==Deposition of PolySilicon using LPCVD==


Danchip has two furnaces for deposition of LPCVD (Low Chemical Vapour Deposition) polysilicon: A 6" furnace (installed in 2011) for deposition of standard polySi, amorphous polySi and boron doped polySi on 100 mm or 150 mm wafers and a 4" furnace (installed in 1995) for deposition of standard polySi, amorphous polySi, boron- and phosphorous doped polySi on 100 mm wafers. In LabManager the two furnaces are named "Furnace: LPCVD Poly-Si (4") (B4)" and "Furnace: LPCVD Poly-Si (6") (E2)", respectively.  
DTU Nanolab has two furnaces for deposition of LPCVD (Low Chemical Vapour Deposition) polysilicon: A 6" furnace (installed in 2011) for deposition of standard polySi, amorphous polySi and boron doped polySi on 100 mm or 150 mm wafers and a 4" furnace (installed in 1995) for deposition of standard polySi, amorphous polySi, boron- and phosphorous doped polySi on 100 mm wafers. In LabManager the two furnaces are named "Furnace: LPCVD Poly-Si (4") (B4)" and "Furnace: LPCVD Poly-Si (6") (E2)", respectively.  


*[[Specific_Process_Knowledge/Thin_film_deposition/Deposition_of_polysilicon/Deposition_of_polysilicon_using_LPCVD/Standard_recipes,_QC_limits_and_results_for_the_4%22_polysilicon_furnace|Deposition of polysilicon using the 4" polysilicon furnace]]
*[[Specific_Process_Knowledge/Thin_film_deposition/Deposition_of_polysilicon/Deposition_of_polysilicon_using_LPCVD/Standard_recipes,_QC_limits_and_results_for_the_4%22_polysilicon_furnace|Deposition of polysilicon using the 4" polysilicon furnace]]
*[[Specific_Process_Knowledge/Thin_film_deposition/Deposition_of_polysilicon/Deposition_of_polysilicon_using_LPCVD/Standard_recipes,_QC_limits_and_results_for_the_6%22_polysilicon_furnace|Deposition of polysilicon using the 6" polysilicon furnace]]
*[[Specific_Process_Knowledge/Thin_film_deposition/Deposition_of_polysilicon/Deposition_of_polysilicon_using_LPCVD/Standard_recipes,_QC_limits_and_results_for_the_6%22_polysilicon_furnace|Deposition of polysilicon using the 6" polysilicon furnace]]


==Deposition of Silicon using PECVD==


==Deposition of Silicon using sputter deposition technique==
At Nanolab you can also deposit silicon the using PECVD. The deposition temperature is 300 °C. 


At DANCHIP you can also deposit silicon the using Wordentec, the Lesker Sputter system or the IBE Ionfab300 sputter systems. One of the advantages here is that you can deposit on any material you like.  
* [[/Si deposition using PECVD|Si deposition using PECVD3]]
 
==Deposition of Silicon using sputter deposition==
 
At Nanolab we can sputter silicon the using Wordentec or the Lesker Sputter systems. One of the advantages of sputtering is that you can deposit on almost any material you like.  
 
* [[Specific Process Knowledge/Thin film deposition/Si sputter in Wordentec|Si sputter deposition in the Wordentec]]
* [[Specific Process Knowledge/Thin film deposition/Deposition of Silicon/Si sputter in Sputter-System Lesker|Si sputter deposition in the  Sputter-System (Lesker)]] - ''includes information on surface roughness and stress''
* [[Specific Process Knowledge/Thin film deposition/Deposition of Silicon/Si sputter in Sputter-System Metal-Oxide(PC1)|Si sputter deposition in the  Sputter-System Metal-Oxide(PC1)]]
* [[Specific Process Knowledge/Thin film deposition/Deposition of Silicon/Si sputter in Sputter-System Metal-Oxide(PC3)|Si sputter deposition in the  Sputter-System Metal-Oxide(PC3)]]
 
It was previosly possible to sputter Si with our [[Specific Process Knowledge/Etch/IBE⁄IBSD Ionfab 300| IonFab 300]]. You can read about the deposition conditions and results from that [[Specific Process Knowledge/Etch/IBE⁄IBSD Ionfab 300/IBSD of Si|here]].
 
==Deposition of Silicon using e-beam evaporation==
It is possible to e-beam evaporate silicon at Nanolab using the [[Specific Process Knowledge/Thin film deposition/10-pocket e-beam evaporator|E-beam evaporator (10-pockets)]]. As with sputtering you can deposit on almost any material. In e-beam evaporation the deposition is line-of-sight and will be suitable for lift-off. However for 8" wafers the system is not optimized for lift-off on the full diameter of the wafer.
 
* [[Specific Process Knowledge/Thin film deposition/Deposition of Silicon/Si evaporation in E-beam evaporator Temescal-2|Si evaporation in E-beam evaporator (10-pockets)]]


* [[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300/IBSD of Si|Si deposition in IBE&frasl;IBSD Ionfab300]]
* [[Specific Process Knowledge/Thin film deposition/Si sputter in Wordentec|Si sputter in Wordentec]]


==Comparison of the methods for deposition of Silicon==
==Comparison of the methods for deposition of Silicon==
Line 26: Line 42:
!  
!  
! 4" and 6" Furnace PolySi ([[Specific Process Knowledge/Thin film deposition/Furnace LPCVD PolySilicon|Furnace LPCVD PolySi]])
! 4" and 6" Furnace PolySi ([[Specific Process Knowledge/Thin film deposition/Furnace LPCVD PolySilicon|Furnace LPCVD PolySi]])
! PECVD ([[Specific Process Knowledge/Thin film deposition/PECVD|PECVD]])
! Sputter ([[Specific Process Knowledge/Thin film deposition/Wordentec|Wordentec]])
! Sputter ([[Specific Process Knowledge/Thin film deposition/Wordentec|Wordentec]])
! Sputter ([[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/IBSD Ionfab 300]])
! Sputter ([[Specific Process Knowledge/Thin film deposition/Lesker|Lesker]])
! Sputter ([[Specific Process Knowledge/Thin film deposition/Lesker|Lesker]])
! E-beam evaporation ([[Specific Process Knowledge/Thin film deposition/III-V Dielectric evaporator|III-V Dielectric evaporator]])
! Sputter ([[Specific Process Knowledge/Thin film deposition/Cluster-based multi-chamber high vacuum sputtering deposition system|Sputter-system Metal-Oxide (PC1) and Sputter-system Metal-Nitride (PC3)]])
! E-beam evaporation ([[Specific Process Knowledge/Thin film deposition/10-pocket e-beam evaporator|E-beam evaporator (10-pockets)]])
|-  
|-  
|-style="background:WhiteSmoke; color:black"
|-style="background:WhiteSmoke; color:black"
! General description
! General description


|LPCVD (low pressure cheimical vapour deposition) of polysilicon
| LPCVD (low pressure chemical vapour deposition) of a-Si and poly-Si
 
| Plasma Enhanced Chemical Vapor Deposition of Si
| Sputter deposition of Si.
| Sputter deposition of Si.
 
| Sputter deposition of Si.  
| Ion beam sputter deposition of Si.
 
| Sputter deposition of Si.  
| Sputter deposition of Si.  
| E-beam evaporation of Si.
| E-beam evaporation of Si.
Line 46: Line 61:
|-style="background:LightGrey; color:black"
|-style="background:LightGrey; color:black"
! Doping facility
! Doping facility
|Can be doped with boron or phosphorus during deposition
|Yes, B (boron) and P (phosphorus)
|Yes, B and P
|None
|None
|None
|None
Line 55: Line 71:
! Pre-clean
! Pre-clean
|New wafers can go directly into the furnace. Processed wafers have to be RCA cleaned
|New wafers can go directly into the furnace. Processed wafers have to be RCA cleaned
|RF Ar clean
|&nbsp;
|RF Ar clean available
|RF Ar clean available
|RF Ar clean available
|None
|None
|RF Ar clean
|&nbsp;
|-
|-
|-style="background:LightGrey; color:black"
|-style="background:LightGrey; color:black"
! Layer thickness
! Layer thickness
|~50Å to 2µm, if thicker layers are needed please ask the furnace team.
|~5 nm to 2 µm, if thicker layers are needed please ask the furnace team.
|10Å to about 3000Å
|few nm to ~ 600 nm
|No defined limits
|few nm to ~ 300 nm
|
|few nm to >200 nm
|10Å to 2500Å
|few nm to ?
|few nm to 100 nm *
|-
|-


Line 72: Line 90:
! Deposition rate
! Deposition rate
|
|
*undoped, boron doped:~100Å/min
*undoped, boron doped:~100 Å/min
*Phospher doped:~20Å/min
*Phosphorous doped:~20 Å/min
|~6 Å/s can probably be higher
|
|
In the order of 1 Å/s, but dependendt on process parameters. See more [[Specific Process Knowledge/Thin film deposition/Si sputter in Wordentec|here.]]
On the order of 1 Å/s dependent on process parameters. See more [[Specific Process Knowledge/Thin film deposition/Si sputter in Wordentec|here.]]
| About 5 nm/min. See more [[Specific_Process_Knowledge/Etch/IBE⁄IBSD_Ionfab_300/IBSD_of_Si|here.]]
| Depends on process parameters, roughly 0.2-2 Å/s. See Process Log.
| Depends on process parameters, roughly 1 Å/s.
|Depends on process parameters, at least 0.3 Å/s, see conditions [[Specific_Process_Knowledge/Thin_film_deposition/Cluster-based_multi-chamber_high_vacuum_sputtering_deposition_system#Standard_recipe_performance|here]]
|1Å/s to 5Å/s (see below).
| 1 Å/s
|-
|-
|-style="background:LightGrey; color:black"
|-style="background:LightGrey; color:black"
! Process temperature
! Process temperature
|560 <sup>o</sup>C (amorph) and 620 <sup>o</sup>C (poly)
|560 °C (amorphous) and 620 °C (poly)
|?
|300 °C
|Platen: 5-60 <sup>o</sup>C
|room temperature
|Wafers can be heated to 100-200°C
|room temperature
|20-250 <sup>o</sup>C
|room temperature to 600 °C
|room temperature to 250 °C
|-
|-


Line 92: Line 112:
! Step coverage
! Step coverage
|Good
|Good
|.
|Medium
|Not known
|Medium
|
|Medium
|Poor
|Medium - may be possible to improve using HIPIMS
|no step coverage unless using tilt holder, in which case the step coverage can be very good and can be tuned.
|-
|-


Line 101: Line 122:
! Adhesion
! Adhesion
|Good for fused silica, silicon oxide, silicon nitride, silicon
|Good for fused silica, silicon oxide, silicon nitride, silicon
|.
|Not tested, but do not deposit on top of silicon
|Not tested
|&nbsp;
|&nbsp;
|&nbsp;
|&nbsp;
|&nbsp;
|&nbsp;
Line 112: Line 134:
*1-30 wafers (4" furnace)
*1-30 wafers (4" furnace)
*1-25 wafes (6" furnace)
*1-25 wafes (6" furnace)
|
* Several small samples
* 1-2x 50 mm wafer
* 1x 100 mm wafer
* 1x 150 mm wafer
|
|
*24x 2" wafers or  
*24x 2" wafers or  
*6x 4" wafers or
*6x 4" wafers or
*6x 6" wafers
*6x 6" wafers
 
* Several small samples mounted with capton tape
* 1x 50 mm wafer
* 1x 100 mm wafer
* 1x 150 mm wafer
* 1x 200 mm wafer
|
|
* Up to 1x6" wafers
* Up to 1x6" wafers
* smaller pieces
* smaller pieces
|
|
* 2"
*Up to 10x6" or 4" wafers
* chips
*many smaller pieces
|
*Up to 4 x 6" wafer or
*3x 8" wafers (ask for special holder)
*Many smaller pieces


|-style="background:LightGrey; color:black"
|-style="background:LightGrey; color:black"
Line 137: Line 163:
**  from the A, B and E stack furnaces  
**  from the A, B and E stack furnaces  
* Quartz/fused silica wafers (RCA cleaned)  
* Quartz/fused silica wafers (RCA cleaned)  
|
*See the cross contamination sheets
|   
|   
* Silicon wafers
*Almost any that does not degas.
* Quartz wafers
* Pyrex wafers
|
|
*Same materials as on the allowed materials below
* Almost any that does not degas, see cross-contamination sheet
|
|
* Silicon wafers
*Almost any that does not degas, see cross-contamination sheets
* Quartz wafers
* Pyrex wafers
|
|
* Silicon wafers
*Almost any that does not degas, see cross-contamination sheets
* Quartz wafers
 
* Pyrex wafers
|-
|-
|-style="background:WhiteSmoke; color:black"
|-style="background:WhiteSmoke; color:black"
! Allowed material  
! Allowed material  


| Only those above (under allowed substrates).
| *Only those above (under allowed substrates).
|
*See the cross contamination sheets
|   
* Almost any that does not degas.
 
|     
|     
* Silicon oxide
*Almost any that does not degas, see the cross-contamination sheet
* Silicon (oxy)nitride
* Photoresist
* PMMA
* Mylar
* SU-8
* Metals
|
|
* Silicon, silicon oxides, silicon nitrides
*Almost any that does not degas, see the cross-contamination sheets
* Metals from the +list
|
* Metals from the -list
*Almost any that does not degas, see cross-contamination sheet
* Alloys from the above list
 
* Stainless steel
* Glass
* III-V materials
* Resists
* Polymers
* Capton tape
|  
* Silicon oxide
* Silicon (oxy)nitride
* Photoresist
* Metals
|     
* III-V materials
* Silicon wafers
* Resists
|-
|-


Line 190: Line 197:
! Comment
! Comment
|
|
|Only in PECVD3
|  
|  
| The system is used both for IBSD and IBE. Si deposition can only be performed when it is set up for IBSD.
|
|
|
| &nbsp;
| Please only deposit Si on the afternoon before a scheduled service as it can result in many flakes in the chamber. See the booking calendar or ask staff to find out when the next service will be.
|}
|}
'''*''' If you wish to deposit a thicker layer than 100 nm please talk to responsible staff or write to thinfilm@nanolab.dtu.dk

Latest revision as of 15:22, 7 February 2024

Feedback to this page: click here

Unless otherwise stated, this page is written by DTU Nanolab internal

PolySilicon can be deposited in several Nanolab tools. It can be sputtered, e-beam evaporated or be deposited in the PolySilicon furnaces. In the chart below you can compare the different deposition methods:


Deposition of PolySilicon using LPCVD

DTU Nanolab has two furnaces for deposition of LPCVD (Low Chemical Vapour Deposition) polysilicon: A 6" furnace (installed in 2011) for deposition of standard polySi, amorphous polySi and boron doped polySi on 100 mm or 150 mm wafers and a 4" furnace (installed in 1995) for deposition of standard polySi, amorphous polySi, boron- and phosphorous doped polySi on 100 mm wafers. In LabManager the two furnaces are named "Furnace: LPCVD Poly-Si (4") (B4)" and "Furnace: LPCVD Poly-Si (6") (E2)", respectively.

Deposition of Silicon using PECVD

At Nanolab you can also deposit silicon the using PECVD. The deposition temperature is 300 °C.

Deposition of Silicon using sputter deposition

At Nanolab we can sputter silicon the using Wordentec or the Lesker Sputter systems. One of the advantages of sputtering is that you can deposit on almost any material you like.

It was previosly possible to sputter Si with our IonFab 300. You can read about the deposition conditions and results from that here.

Deposition of Silicon using e-beam evaporation

It is possible to e-beam evaporate silicon at Nanolab using the E-beam evaporator (10-pockets). As with sputtering you can deposit on almost any material. In e-beam evaporation the deposition is line-of-sight and will be suitable for lift-off. However for 8" wafers the system is not optimized for lift-off on the full diameter of the wafer.


Comparison of the methods for deposition of Silicon

4" and 6" Furnace PolySi (Furnace LPCVD PolySi) PECVD (PECVD) Sputter (Wordentec) Sputter (Lesker) Sputter (Sputter-system Metal-Oxide (PC1) and Sputter-system Metal-Nitride (PC3)) E-beam evaporation (E-beam evaporator (10-pockets))
General description LPCVD (low pressure chemical vapour deposition) of a-Si and poly-Si Plasma Enhanced Chemical Vapor Deposition of Si Sputter deposition of Si. Sputter deposition of Si. Sputter deposition of Si. E-beam evaporation of Si.
Doping facility Yes, B (boron) and P (phosphorus) Yes, B and P None None None None
Pre-clean New wafers can go directly into the furnace. Processed wafers have to be RCA cleaned   RF Ar clean available RF Ar clean available RF Ar clean available None
Layer thickness ~5 nm to 2 µm, if thicker layers are needed please ask the furnace team. few nm to ~ 600 nm few nm to ~ 300 nm few nm to >200 nm few nm to ? few nm to 100 nm *
Deposition rate
  • undoped, boron doped:~100 Å/min
  • Phosphorous doped:~20 Å/min
~6 Å/s can probably be higher

On the order of 1 Å/s dependent on process parameters. See more here.

Depends on process parameters, roughly 0.2-2 Å/s. See Process Log. Depends on process parameters, at least 0.3 Å/s, see conditions here 1 Å/s
Process temperature 560 °C (amorphous) and 620 °C (poly) 300 °C room temperature room temperature room temperature to 600 °C room temperature to 250 °C
Step coverage Good Medium Medium Medium Medium - may be possible to improve using HIPIMS no step coverage unless using tilt holder, in which case the step coverage can be very good and can be tuned.
Adhesion Good for fused silica, silicon oxide, silicon nitride, silicon Not tested, but do not deposit on top of silicon        
Batch size
  • 1-30 wafers (4" furnace)
  • 1-25 wafes (6" furnace)
  • Several small samples
  • 1-2x 50 mm wafer
  • 1x 100 mm wafer
  • 1x 150 mm wafer
  • 24x 2" wafers or
  • 6x 4" wafers or
  • 6x 6" wafers
  • Up to 1x6" wafers
  • smaller pieces
  • Up to 10x6" or 4" wafers
  • many smaller pieces
  • Up to 4 x 6" wafer or
  • 3x 8" wafers (ask for special holder)
  • Many smaller pieces
Allowed substrates
  • Silicon wafers (new or RCA cleaned)
    • with layers of silicon oxide or silicon (oxy)nitride
    • from the A, B and E stack furnaces
  • Quartz/fused silica wafers (RCA cleaned)
  • See the cross contamination sheets
  • Almost any that does not degas.
  • Almost any that does not degas, see cross-contamination sheet
  • Almost any that does not degas, see cross-contamination sheets
  • Almost any that does not degas, see cross-contamination sheets
Allowed material *Only those above (under allowed substrates).
  • See the cross contamination sheets
  • Almost any that does not degas.
  • Almost any that does not degas, see the cross-contamination sheet
  • Almost any that does not degas, see the cross-contamination sheets
  • Almost any that does not degas, see cross-contamination sheet
Comment Only in PECVD3 Please only deposit Si on the afternoon before a scheduled service as it can result in many flakes in the chamber. See the booking calendar or ask staff to find out when the next service will be.

* If you wish to deposit a thicker layer than 100 nm please talk to responsible staff or write to thinfilm@nanolab.dtu.dk