Specific Process Knowledge/Etch/Etching of Silicon Oxide: Difference between revisions

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Silicon oxide can be etched using either wet chemistry or dry etch equipment. Wet chemistry is mainly used to remove all the oxide on the surface (backside and front side) of a wafer or for isotrotropic etching. Dry etching etches anisotropic. It etches one side of the wafer at a time and can be used to etch structures with several masking materials.
'''Unless anything else is stated, everything on this page, text and pictures are made by DTU Nanolab.'''


Etch of silicon oxide can be done by either wet etch or dry etch. The standard setups for this here at DANCHIP are:
'''All links to Kemibrug (SDS) and Labmanager Including APV and QC requires login.'''
===Wet etches:===
*Specific Process Knowledge/Etch/KOH Etch|KOH Etch


===Dry etches:===
'''Feedback to this page''': '''[mailto:labadviser@danchip.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.danchip.dtu.dk/index.php/Specific_Process_Knowledge/Etch/Etching_of_Silicon_Oxide click here]'''
*[[/SiO2 etch using RIE1 or RIE2|Dry etch using RIE1 or RIE2]]
<!-- Replace "http://labadviser.danchip.dtu.dk/..." with the link to the Labadviser page-->
*[[/SiO2 etch using AOE|Dry etch using AOE]]


==Comparison of wet Silicon Oxide etch and dry etches (RIE and AOE) etch for etching of Silicon Oxide==
== Comparing silicon oxide etch methods at DTU Nanolab ==
{| border="1" cellspacing="0" cellpadding="4" align="center"
There are a broad varity of silicon oxide etch methods at DTU Nanolab. The methodes are compared here to make it easier for you to compare and choose the one that suits your needs.
!  
 
! Wet Silicon Oxide etch (BHF)
*[[Specific Process Knowledge/Etch/Wet Silicon Oxide Etch (BHF)|Wet Silicon Oxide Etch]]
! RIE
 
! AOE
*[[Specific_Process_Knowledge/Etch/III-V_RIE/III_V_RIE_ETCHES#CHF3.2FO2_etch |SiO2 etch using III-V RIE]]
|-  
*[[/SiO2 etch using AOE|SiO2 etch using AOE]]
| What is it good for:
*[[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-4|SiO2 etch with DRIE Pegasus 4]]
*[[/SiO2 etch using ASE|SiO2 etch using ASE]]
*[[Specific_Process_Knowledge/Etch/ICP_Metal_Etcher/silicon_oxide|SiO2 etch using ICP metal]]
*[[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/IBSD Ionfab 300]]
*[[/SiO2 etch using Plasma Asher|SiO2 etch using Plasma Asher (isotropic)]]
 
==Compare the methods for Silicon Oxide etching==
 
{|border="1" cellspacing="1" cellpadding="3" style="text-align:left;"
|-
 
|-
|-style="background:silver; color:black"
!
![[Specific Process Knowledge/Etch/Wet Silicon Oxide Etch (BHF)|Wet Silicon Oxide etch (BHF/HF)]]
![[Specific Process Knowledge/Etch/ASE (Advanced Silicon Etch)|ASE]]
![[Specific Process Knowledge/Etch/III-V RIE |III-V RIE]]
![[Specific Process Knowledge/Etch/AOE (Advanced Oxide Etch)|AOE (Advanced Oxide Etch)]]
![[Specific Process Knowledge/Etch/DRIE-Pegasus/Pegasus-4|DRIE Pegasus 4]]
![[Specific Process Knowledge/Etch/ICP Metal Etcher|ICP metal]]
![[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/IBSD Ionfab 300]]
![[Specific Process Knowledge/Etch/HF Vapour Phase Etch|HF Vapour Phase Etch]]
 
|-
 
|-
|-style="background:WhiteSmoke; color:black"
!Generel description
|
|
*Isotropic etch
*Isotropic etch
Line 22: Line 46:
*Anisotropic etch: vertical sidewalls
*Anisotropic etch: vertical sidewalls
|
|
*Anisotropic etch: vertical sidewalls, especially good for deep etch and high aspect ratio etch  
*Anisotropic etch: vertical sidewalls
*Premarily for III-V samples
|
*Anisotropic etch: vertical sidewalls
|
*Anisotropic etch: almost vertical sidewalls
|
*Anisotropic etch: almost vertical sidewalls
*We prefer that SiO2 etch takes place in the AOE or Pegasus 4.
|
*Primarily for pure physical etch by sputtering with Ar-ions
|
*Gas phase HF etching with ethanol as carrier
|-
 
|-
|-
|Possible masking materials:
|-style="background:LightGrey; color:black"
!Possible masking materials
|
*Photoresist
*PolySilicon
*Silicon nitride (LPCVD)
*Blue film
*Cr/Au for deeper etches (plastic beaker)
|
|
*Photoresist
*DUV resist
*E-beam resist
*Silicon
*Silicon Nitride
*Metals if they cover less than 5% of the wafer area
|
|
*Photoresist
*Photoresist
*(Poly)Silicon
*DUV resist
*E-beam resist
*Aluminum
*Silicon
*Silicon Nitride
|
*Photoresist
*DUV resist
*E-beam resist
*Silicon
*Silicon Nitride
*Aluminium
*Aluminium
*Chromium (ONLY RIE2!)
*Chromium (Please try to avoid this)
*Other metals that covers less the 5% of the wafer area (ONLY RIE2!)
|
*Photoresist
*DUV resist
*E-beam resist
*Si
*Silicon Nitride
*Chromium (ask for permission)
|
|
*Photoresist
*Photoresist
*(Poly)Silicon
*DUV resist
*E-beam resist
*Si
*Silicon Nitride
*Aluminium
*Aluminium
|-
*Chromium
|Etch rate
|
|
*Any material that is accepted in the machine
|
|
*Typically 40-120 nm/min can be increased or decreased by using other recipe parameters. 
*Aluminium
*Aluminium oxide
*Polysilicon
|-
 
|-
|-style="background:WhiteSmoke; color:black"
!Etch rate range
|
*~75 nm/min (Thermal oxide) in BHF
*~80 nm/min (Thermal oxide) in BOE 7:1 Etchant VLSI with Surfactant
*~25 nm/min (Thermal oxide) in 5%HF
*~6 nm/min (Thermal oxide) in 1%HF
*~3-4µm/min in 40%HF
|
*Process dependent
*Tested range: ~20nm/min - ~250nm/min
|
*Process dependent
*Tested range: ~1nm/min - ~30nm/min
|
*Process dependent
*Tested range: ~60nm/min - ~550nm/min
|
*Process dependent
<500nm/min
|
*Process dependent
*Tested range: ~40nm/min - ~200nm/min
|
|
*Typically 200-600 nm/min can be increased or decreased by using other recipe parameters.
*Process dependent
*Tested once ~22nm/min
|
*Sample and load dependent
*Expected range: 12 - 175 nm/min
|-
|-
|Process volume
|-style="background:LightGrey; color:black"
!Substrate size
|
|
*25 wafers at a time
*<nowiki>#</nowiki>1-25 100mm wafers in our 100mm bath
*What can be fitted in a plastic beaker
|
|
*1 wafer at a time
*As many small samples as can be fitted on the 100mm carrier (bad/no cooling!).
*<nowiki>#</nowiki>1 100mm wafer (or smaller with carrier)
*<nowiki>#</nowiki>1 150mm wafer (only when set up for 150mm)
|
|
*1 wafer at a time
*Up to 20cm in diameter
|
*As many small samples as can be fitted on a 100mm wafer
*<nowiki>#</nowiki>1 50 mm wafer fitted on a 100mm wafer
*<nowiki>#</nowiki>1 100 mm wafer
*<nowiki>#</nowiki>1 150 mm wafers (only when the system is set up to 150mm)
|
*As many small samples as can be bonded on a 150mm wafer
*<nowiki>#</nowiki>1 50 mm wafer bonded on a 150mm wafer
*<nowiki>#</nowiki>1 100 mm wafer bonded on a 150nm wafer
*<nowiki>#</nowiki>1 150 mm wafers
|
*As many small samples as can be fitted on a 150mm wafer
*<nowiki>#</nowiki>1 50 mm wafer fittesd on a 150mm wafer
*<nowiki>#</nowiki>1 100 mm wafer fitted on a 150nm wafer
*<nowiki>#</nowiki>1 150 mm wafers
|
*As many samples as can be securely fitted on a up to 200mm wafer
*<nowiki>#</nowiki>1 50 mm wafer with special carrier
*<nowiki>#</nowiki>1 100 mm wafer with special carrier
*<nowiki>#</nowiki>1 150 mm wafers with special carrier
*<nowiki>#</nowiki>1 200 mm wafer
|
*Pieces
*<nowiki>#</nowiki>1 50 mm wafer
*<nowiki>#</nowiki>1 100 mm wafer
*<nowiki>#</nowiki>1 150 mm wafer
|-
|-
|Size of substrate
|-style="background:WhiteSmoke; color:black"
!Allowed materials
|
|
*4" wafers
In the dedicated bath:
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photoresist
*Blue film
In a plastic beaker:
*No limits cross contamination wise
|
|
*4" wafers or smaller pieces
*[http://labmanager.dtu.dk/function.php?module=XcMachineaction&view=edit&MachID=105 Please take a look in the cross contamination sheet in LabManager for details]
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photoresist
*DUV resist
*E-beam resist
*Other metals if they cover less than 5% of the wafer area
*Quartz/fused silica
|
|
*6" or 4" depending on the setup (smaller pieces if you have a carrier wafer)  
*[http://labmanager.dtu.dk/function.php?module=XcMachineaction&view=edit&MachID=155 Please take a look in the cross contamination sheet in LabManager for details]
*GaAs, GaN, InP, with epitaxial layers
*Aluminum
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photoresist
*DUV resist
*E-beam resist
|
*[http://labmanager.dtu.dk/function.php?module=XcMachineaction&view=edit&MachID=115 Please take a look in the cross contamination sheet in LabManager for details]
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photoresist
*DUV resist
*E-beam resist
*Aluminium
*Chromium (try to avoid it)
*Quartz/fused silica
|
*[http://labmanager.dtu.dk/function.php?module=XcMachineaction&view=edit&MachID=456 Please take a look in the cross contamination sheet in LabManager for details]
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photoresist
*DUV resist
*E-beam resist
*Chromium
*Quartz/fused silica
|
*[http://labmanager.dtu.dk/function.php?module=XcMachineaction&view=edit&MachID=266 Please take a look in the cross contamination sheet in LabManager for details]
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photoresist
*DUV resist
*E-beam resist
*Aluminium
*Chromium
*Titanium
*W
*Quartz/fused silica
|
*[http://labmanager.dtu.dk/function.php?module=XcMachineaction&view=edit&MachID=267 Please take a look in the cross contamination sheet in LabManager for details]
*Silicon
*Silicon oxides
*Silicon (oxy)nitrides
*Metals
*Alloys
*Stainless steel
*Glass
*III-V materials
*Resists
*Polymers
*Capton tape
|
*[http://labmanager.dtu.dk/function.php?module=XcMachineaction&view=edit&MachID=458 Please take a look in the cross contamination sheet in LabManager for details]
*Silicon
*Silicon oxides
*Aluminium
|-
|-
|}
|}
<br clear="all" />
==Dry etch with Hard mask==
''By Martin Lind Ommen - ''fall 2016'' '' <br>
Testing selectivities for SiO<sub>2</sub> etching with hard masks on AOE and ICP metal with different recipes.All tests are done with 100% etching load<br>
[[File:Dry etching by Martin Lind Ommen Fall 2016.png|600px]]<br>
MLO_psi is the version of SiO2_psi on labadviser that is shown under low line with reduction.<br>
The recipe ICP is on ICP metal call: A SiO2 etch with C4F8 with resist mask<br>
I had problems with this recipe - it gave polymer on the surface, therefor I do not have more info on that.<br>

Latest revision as of 08:27, 22 August 2023

Unless anything else is stated, everything on this page, text and pictures are made by DTU Nanolab.

All links to Kemibrug (SDS) and Labmanager Including APV and QC requires login.

Feedback to this page: click here

Comparing silicon oxide etch methods at DTU Nanolab

There are a broad varity of silicon oxide etch methods at DTU Nanolab. The methodes are compared here to make it easier for you to compare and choose the one that suits your needs.

Compare the methods for Silicon Oxide etching

Wet Silicon Oxide etch (BHF/HF) ASE III-V RIE AOE (Advanced Oxide Etch) DRIE Pegasus 4 ICP metal IBE/IBSD Ionfab 300 HF Vapour Phase Etch
Generel description
  • Isotropic etch
  • Anisotropic etch: vertical sidewalls
  • Anisotropic etch: vertical sidewalls
  • Premarily for III-V samples
  • Anisotropic etch: vertical sidewalls
  • Anisotropic etch: almost vertical sidewalls
  • Anisotropic etch: almost vertical sidewalls
  • We prefer that SiO2 etch takes place in the AOE or Pegasus 4.
  • Primarily for pure physical etch by sputtering with Ar-ions
  • Gas phase HF etching with ethanol as carrier
Possible masking materials
  • Photoresist
  • PolySilicon
  • Silicon nitride (LPCVD)
  • Blue film
  • Cr/Au for deeper etches (plastic beaker)
  • Photoresist
  • DUV resist
  • E-beam resist
  • Silicon
  • Silicon Nitride
  • Metals if they cover less than 5% of the wafer area
  • Photoresist
  • DUV resist
  • E-beam resist
  • Aluminum
  • Silicon
  • Silicon Nitride
  • Photoresist
  • DUV resist
  • E-beam resist
  • Silicon
  • Silicon Nitride
  • Aluminium
  • Chromium (Please try to avoid this)
  • Photoresist
  • DUV resist
  • E-beam resist
  • Si
  • Silicon Nitride
  • Chromium (ask for permission)
  • Photoresist
  • DUV resist
  • E-beam resist
  • Si
  • Silicon Nitride
  • Aluminium
  • Chromium
  • Any material that is accepted in the machine
  • Aluminium
  • Aluminium oxide
  • Polysilicon
Etch rate range
  • ~75 nm/min (Thermal oxide) in BHF
  • ~80 nm/min (Thermal oxide) in BOE 7:1 Etchant VLSI with Surfactant
  • ~25 nm/min (Thermal oxide) in 5%HF
  • ~6 nm/min (Thermal oxide) in 1%HF
  • ~3-4µm/min in 40%HF
  • Process dependent
  • Tested range: ~20nm/min - ~250nm/min
  • Process dependent
  • Tested range: ~1nm/min - ~30nm/min
  • Process dependent
  • Tested range: ~60nm/min - ~550nm/min
  • Process dependent

<500nm/min

  • Process dependent
  • Tested range: ~40nm/min - ~200nm/min
  • Process dependent
  • Tested once ~22nm/min
  • Sample and load dependent
  • Expected range: 12 - 175 nm/min
Substrate size
  • #1-25 100mm wafers in our 100mm bath
  • What can be fitted in a plastic beaker
  • As many small samples as can be fitted on the 100mm carrier (bad/no cooling!).
  • #1 100mm wafer (or smaller with carrier)
  • #1 150mm wafer (only when set up for 150mm)
  • Up to 20cm in diameter
  • As many small samples as can be fitted on a 100mm wafer
  • #1 50 mm wafer fitted on a 100mm wafer
  • #1 100 mm wafer
  • #1 150 mm wafers (only when the system is set up to 150mm)
  • As many small samples as can be bonded on a 150mm wafer
  • #1 50 mm wafer bonded on a 150mm wafer
  • #1 100 mm wafer bonded on a 150nm wafer
  • #1 150 mm wafers
  • As many small samples as can be fitted on a 150mm wafer
  • #1 50 mm wafer fittesd on a 150mm wafer
  • #1 100 mm wafer fitted on a 150nm wafer
  • #1 150 mm wafers
  • As many samples as can be securely fitted on a up to 200mm wafer
  • #1 50 mm wafer with special carrier
  • #1 100 mm wafer with special carrier
  • #1 150 mm wafers with special carrier
  • #1 200 mm wafer
  • Pieces
  • #1 50 mm wafer
  • #1 100 mm wafer
  • #1 150 mm wafer
Allowed materials

In the dedicated bath:

  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photoresist
  • Blue film

In a plastic beaker:

  • No limits cross contamination wise


Dry etch with Hard mask

By Martin Lind Ommen - fall 2016
Testing selectivities for SiO2 etching with hard masks on AOE and ICP metal with different recipes.All tests are done with 100% etching load

MLO_psi is the version of SiO2_psi on labadviser that is shown under low line with reduction.
The recipe ICP is on ICP metal call: A SiO2 etch with C4F8 with resist mask
I had problems with this recipe - it gave polymer on the surface, therefor I do not have more info on that.