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

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New page: Etch of silicon can be done by either wet etch or dry etch. The standard setups for this here at DANCHIP are: ===Wet etches:=== *KOH etch *Wet PolySilicon etch ===Dry etches:=== *Dry etch...
 
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Etch of silicon can be done by either wet etch or dry etch. The standard setups for this here at DANCHIP are:
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== Comparing silicon etch methods ==
 
There are a broad variety of silicon etch methods at DTU Nanolab The methods are compared here to make it easier for you to compare and choose the one that suits your needs.
 
===Wet etches:===
===Wet etches:===
*KOH etch
*[[Specific Process Knowledge/Etch/KOH Etch|Si Etch: KOH]]
*Wet PolySilicon etch
*[[Specific Process Knowledge/Etch/Wet Polysilicon Etch|Wet PolySilicon etch]]


===Dry etches:===
===Dry etches:===
*Dry etch using RIE1 or RIE2
*[[/Si etch using ASE|Si etch using ASE (Advanced Silicon Etch)]]
*Dry etch using ASE
*[[Specific Process Knowledge/Etch/DRIE-Pegasus|Si etch using DRIE-Pegasus (Silicon Etch)]]
*[[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300/IBE Si etch|Si etch using IBE/IBSD Ionfab 300]]
 
==Compare the methods for Si etching==
 
{|border="1" cellspacing="1" cellpadding="3" style="text-align:left;"
|-
 
|-
|-style="background:silver; color:black"
!
![[Specific Process Knowledge/Etch/KOH Etch|Si Etch]]
![[Specific Process Knowledge/Etch/Wet Polysilicon Etch|Wet PolySilicon etch]]
![[Specific Process Knowledge/Etch/DRIE-Pegasus|DRIE-Pegasus (Deep Reactive Ion Etch)]]
![[Specific Process Knowledge/Etch/ASE (Advanced Silicon Etch)|ASE (Advanced Silicon Etch)]]
![[Specific Process Knowledge/Etch/ICP Metal Etcher|ICP Metal Etch]]
![[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/IBSD Ionfab 300]]
 
|-
 
|-
|-style="background:WhiteSmoke; color:black"
!Generel description
|
*Anisotropic etch in crystalline silicon
*High selectivity to the {111}-planes
|
*Isotropic etch in crystalline silicon and polysilicon
|
*State-of-the-art dry silicon etcher with atmospheric cassette loader
*Good selectivity to photoresist
*Extremely high etch rate and advanced processing options
|
*Can etch isotropic and anisotropic depending on the process parameters and mask design
*Good selectivity to photoresist
*The ASE open for same metal on the samples and SiO2 etching, which can affect the Si etch stability.
|
*This is dedicated to metal etch. So fare only Si etch of nanostructures has been explored on the system.
|
*Primarily for pure physical etch by sputtering with Ar-ions
|-
 
|-
|-style="background:LightGrey; color:black"
!Possible masking materials
|
*Silicon Nitride
*Silicon Oxide
|
*Photo-, DUV- and e-beamresist
*E-beam resist
*Silicon Oxide
*Silicon Nitride
*Aluminium
*Chromium (ONLY RIE2!)
*Other metals if they cover less than 5% of the wafer area (ONLY RIE2!)
|
*Photo-, DUV- and e-beamresist
*Silicon Oxide
*Silicon Nitride
*Aluminium oxide
|
*Photo-, DUV- and e-beamresist
*Silicon Oxide
*Silicon Nitride
*Aluminium
|
*Photo-, DUV- and e-beamresist
*Silicon Oxide
*Silicon Nitride
*Aluminium
*Cr
*Ti
|
*Any material that is accepted in the machine
|-
 
|-
|-style="background:WhiteSmoke; color:black"
!Etch rate range
|
*Si(100) @80<sup>o</sup>C: 1.29+0.05 µm/min
*Si(100) @70<sup>o</sup>C: ~0.7 µm/min
*Si(100) @60<sup>o</sup>C: ~0.4 µm/min
|
*~100-200 nm/min, highly dependent on doping level
|
*Up to 18-20 µm/min depending on recipe, mask design and aspect ratio.
|
*<130nm/min to >5.6 µm/min depending on recipe, mask design and aspect ratio.
|
*Process dependent. The nano etch is in the range 59-311 nm/min
|
*Process dependent. Has been tested in the range 17-31 nm/min
|-
 
|-
|-style="background:LightGrey; color:black"
!Substrate size
|
*<nowiki>#</nowiki>25 wafers of 100mm or 150nm in Si Etch 1 & 2
*<nowiki>#</nowiki>25 wafers of 100mm or 150nm and smaller samples in Si Etch 3 (fume hood)
|
*<nowiki>#</nowiki>#25 wafers of 100mm or 150nm mm wafers
|
*As many small samples as can be fitted on the 100mm carrier.
*<nowiki>#</nowiki>1 100mm wafer (or smaller with carrier)
*<nowiki>#</nowiki>1 150mm wafer (only when the system is set up for 150mm)
|
*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 fitted on a 150mm wafer
*<nowiki>#</nowiki>5 50 mm wafers fitted on a 150mm wafer
*<nowiki>#</nowiki>1 100 mm wafer on a 150mm wafer
*<nowiki>#</nowiki>1 150 mm wafers (The system is normally set up to 150mm)
|
*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
|-
|-style="background:WhiteSmoke; color:black"
!'''Allowed materials'''
|
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Other materials (only in "Si Etch 3 (fume hood))
|
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photoresist
|
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photo-, DUV- and e-beamresist
*Aluminium oxide
*Quartz/fused silica
|
*Silicon
*Silicon Oxide
*Silicon Nitride
*Silicon Oxynitride
*Photo-, DUV- and e-beamresist
*Aluminium
*Quartz/fused silica
*Other metals if they cover less than 5% of the wafer area
|
*Silicon
*Photo-, DUV- and e-beamresist
*PolySilicon
*Silicon oxide
*Silicon (oxy)nitride
*Aluminium
*Titanium
*Chromium
*Quartz/fused silica
|
*Silicon
*Silicon oxides
*Silicon (oxy)nitrides
*Metals from the +list
*Metals from the -list
*Alloys from the above list
*Stainless steel
*Glass
*III-V materials
*Resists
*Polymers
*Capton tape
|-
|}
 
<br clear="all" />

Latest revision as of 16:07, 6 February 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 etch methods

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

Wet etches:

Dry etches:

Compare the methods for Si etching

Si Etch Wet PolySilicon etch DRIE-Pegasus (Deep Reactive Ion Etch) ASE (Advanced Silicon Etch) ICP Metal Etch IBE/IBSD Ionfab 300
Generel description
  • Anisotropic etch in crystalline silicon
  • High selectivity to the {111}-planes
  • Isotropic etch in crystalline silicon and polysilicon
  • State-of-the-art dry silicon etcher with atmospheric cassette loader
  • Good selectivity to photoresist
  • Extremely high etch rate and advanced processing options
  • Can etch isotropic and anisotropic depending on the process parameters and mask design
  • Good selectivity to photoresist
  • The ASE open for same metal on the samples and SiO2 etching, which can affect the Si etch stability.
  • This is dedicated to metal etch. So fare only Si etch of nanostructures has been explored on the system.
  • Primarily for pure physical etch by sputtering with Ar-ions
Possible masking materials
  • Silicon Nitride
  • Silicon Oxide
  • Photo-, DUV- and e-beamresist
  • E-beam resist
  • Silicon Oxide
  • Silicon Nitride
  • Aluminium
  • Chromium (ONLY RIE2!)
  • Other metals if they cover less than 5% of the wafer area (ONLY RIE2!)
  • Photo-, DUV- and e-beamresist
  • Silicon Oxide
  • Silicon Nitride
  • Aluminium oxide
  • Photo-, DUV- and e-beamresist
  • Silicon Oxide
  • Silicon Nitride
  • Aluminium
  • Photo-, DUV- and e-beamresist
  • Silicon Oxide
  • Silicon Nitride
  • Aluminium
  • Cr
  • Ti
  • Any material that is accepted in the machine
Etch rate range
  • Si(100) @80oC: 1.29+0.05 µm/min
  • Si(100) @70oC: ~0.7 µm/min
  • Si(100) @60oC: ~0.4 µm/min
  • ~100-200 nm/min, highly dependent on doping level
  • Up to 18-20 µm/min depending on recipe, mask design and aspect ratio.
  • <130nm/min to >5.6 µm/min depending on recipe, mask design and aspect ratio.
  • Process dependent. The nano etch is in the range 59-311 nm/min
  • Process dependent. Has been tested in the range 17-31 nm/min
Substrate size
  • #25 wafers of 100mm or 150nm in Si Etch 1 & 2
  • #25 wafers of 100mm or 150nm and smaller samples in Si Etch 3 (fume hood)
  • ##25 wafers of 100mm or 150nm mm wafers
  • As many small samples as can be fitted on the 100mm carrier.
  • #1 100mm wafer (or smaller with carrier)
  • #1 150mm wafer (only when the system is set up for 150mm)
  • 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 fitted on a 150mm wafer
  • #5 50 mm wafers fitted on a 150mm wafer
  • #1 100 mm wafer on a 150mm wafer
  • #1 150 mm wafers (The system is normally set up to 150mm)
  • 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
Allowed materials
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Other materials (only in "Si Etch 3 (fume hood))
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photoresist
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photo-, DUV- and e-beamresist
  • Aluminium oxide
  • Quartz/fused silica
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photo-, DUV- and e-beamresist
  • Aluminium
  • Quartz/fused silica
  • Other metals if they cover less than 5% of the wafer area
  • Silicon
  • Photo-, DUV- and e-beamresist
  • PolySilicon
  • Silicon oxide
  • Silicon (oxy)nitride
  • Aluminium
  • Titanium
  • Chromium
  • Quartz/fused silica
  • Silicon
  • Silicon oxides
  • Silicon (oxy)nitrides
  • Metals from the +list
  • Metals from the -list
  • Alloys from the above list
  • Stainless steel
  • Glass
  • III-V materials
  • Resists
  • Polymers
  • Capton tape


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