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

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== Comparing silicon nitride etch methods at Danchip ==
== Comparing silicon nitride etch methods at DTU Nanolab ==


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




*[[Specific Process Knowledge/Etch/Wet Silicon Nitride Etch|Wet Silicon Nitride Etch]]
*[[Specific Process Knowledge/Etch/Wet Silicon Nitride Etch|Wet Silicon Nitride Etch]]
*[[/Etch of Silicon Nitride using RIE|Etch of Silicon Nitride using RIE]]
*[[Specific Process Knowledge/Etch/AOE (Advanced Oxide Etch)/Silicon Nitride Etch using AOE|Etch of Silicon Nitride using AOE]]
*[[Specific Process Knowledge/Etch/AOE (Advanced Oxide Etch)/Silicon Nitride Etch using AOE|Etch of Silicon Nitride using AOE]]
*[[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/Ion Beam Etching using IBSD Ionfab 300]]
*[[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/Ion Beam Etching using IBSD Ionfab 300]]
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![[Specific Process Knowledge/Etch/Wet Silicon Nitride Etch|Wet Silicon Nitride Etch]]
![[Specific Process Knowledge/Etch/Wet Silicon Nitride Etch|Wet Silicon Nitride Etch]]
![[Specific Process Knowledge/Etch/Wet Silicon Oxide Etch (BHF)|BHF]]
![[Specific Process Knowledge/Etch/Wet Silicon Oxide Etch (BHF)|BHF]]
![[Specific Process Knowledge/Etch/RIE (Reactive Ion Etch)|RIE (Reactive Ion Etch)]]
![[Specific Process Knowledge/Etch/ASE_(Advanced_Silicon_Etch)|ASE]]  
![[Specific Process Knowledge/Etch/AOE (Advanced Oxide Etch)|AOE (Advanced Oxide Etch)]]
![[Specific Process Knowledge/Etch/AOE (Advanced Oxide Etch)|AOE (Advanced Oxide Etch)]]
![[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/IBSD Ionfab 300]]
![[Specific Process Knowledge/Etch/IBE&frasl;IBSD Ionfab 300|IBE/IBSD Ionfab 300]]
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*Isotropic etch
*Isotropic etch
*Well suited for removing all nitride on a wafer surface (nitride strip) without a mask. High selectivity Si<sub>3</sub>N<sub>4</sub>/Si (>100) and Si<sub>3</sub>N<sub>4</sub>/SiO<sub>2</sub> (>20) @ 180 C.
*Well suited for removing all nitride on a wafer surface (nitride strip) without a mask. High selectivity Si<sub>3</sub>N<sub>4</sub>/Si (>100) and Si<sub>3</sub>N<sub>4</sub>/SiO<sub>2</sub> (>20) @ 160 C.
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*Isotropic etch
*Isotropic etch
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*Silicon Nitride
*Silicon Nitride
*Aluminium
*Aluminium
*Metals if they cover less than 5% of the wafer area (ONLY RIE2!)
*Metals if they cover less than 5% of the wafer area
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*Photoresist
*Photoresist
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!Etch rate range
!Etch rate range
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*Si<sub>3</sub>N<sub>4</sub> @ 180 <sup>o</sup>C: ~84 Å/min
*Si<sub>3</sub>N<sub>4</sub> @ 160 <sup>o</sup>C: ~26 Å/min
*Si<sub>3</sub>N<sub>4</sub> @ 160 <sup>o</sup>C: ~60 Å/min
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*PECVD nitride: ~400-1000 Å/min
*PECVD nitride: ~40.0-100.0 nm/min
*Stoichiometric LPCVD nitride: ~0.65-8 nm/min <!-- Copyrigth issues kabi (''Yannick Seis, KU, 2019'')-->
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*Typically 40-50 nm/min can be increased or decreased by using other recipe parameters.
*Probably betweeb 20-300 nm/min depending on the process parameters  
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*Process dependent.  
*Process dependent.  
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!Substrate size
!Substrate size
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*<nowiki>#</nowiki>1-25 100 mm wafers  
*<nowiki>#</nowiki>1-25 4" and 6" wafers  
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*<nowiki>#</nowiki>1-25 100mm wafers in our 100mm bath
*<nowiki>#</nowiki>1-25 4"-6" wafers  
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*As many small samples as can be fitted on the 100mm carrier.
*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 100mm wafer (or smaller with carrier)
*<nowiki>#</nowiki>1 150mm wafer (only when the system is set up for 150mm)  
*<nowiki>#</nowiki>1 150mm wafer (only when the system is set up for 150mm)  
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*E-beam resists
*E-beam resists
*DUV resists
*DUV resists
*Other metals if they cover less than 5% of the wafer area (ONLY RIE2!)
*Other metals if they cover less than 5% of the wafer area
*Quartz/fused silica
*Quartz/fused silica
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Latest revision as of 12:18, 14 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 nitride etch methods at DTU Nanolab

There are a broad variety of silicon nitride 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.


Compare the methods for Silicon Nitride etching

Wet Silicon Nitride Etch BHF ASE AOE (Advanced Oxide Etch) IBE/IBSD Ionfab 300 ICP Metal


Generel description
  • Isotropic etch
  • Well suited for removing all nitride on a wafer surface (nitride strip) without a mask. High selectivity Si3N4/Si (>100) and Si3N4/SiO2 (>20) @ 160 C.
  • Isotropic etch
  • Well suited for removing all PECVD nitride on a wafer surface (nitride strip) without a mask. Etches LPCVD nitride very slowly
  • Anisotropic etch: vertical sidewalls
  • Anisotropic etch: vertical sidewalls
  • Deep etch
  • Primarily for pure physical etch by sputtering with Ar-ions
  • Anisotropic etch: vertical sidewalls
Possible masking materials
  • Silicon Oxide
  • PolySilicon
  • Photoresist
  • PolySilicon
  • Blue film
  • Photoresist
  • DUV resist
  • E-beam resist
  • Silicon Oxide
  • Silicon Nitride
  • Aluminium
  • Metals if they cover less than 5% of the wafer area
  • Photoresist
  • DUV resist
  • E-beam resist
  • Silicon Oxide
  • Silicon Nitride
  • Aluminium
  • Chromium (please try to avoid it)
  • Any material that is accepted in the machine
  • Resists
  • other materials from the allowed list of materials
Etch rate range
  • Si3N4 @ 160 oC: ~26 Å/min
  • PECVD nitride: ~40.0-100.0 nm/min
  • Stoichiometric LPCVD nitride: ~0.65-8 nm/min
  • Probably betweeb 20-300 nm/min depending on the process parameters
  • Process dependent.
  • Tested once to ~60nm/min
  • Process dependent.
  • Has not been tested yet.
  • Process dependent
  • 60-65 nm/min has been tested
Substrate size
  • #1-25 4" and 6" wafers
  • #1-25 4"-6" wafers
  • 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 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 RIE2 when 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
  • Set up for 150mm wafers
  • Smaller samples can be processes when fixed to a 150mm carrier wafer.
Allowed materials
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photoresist
  • Blue film
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photoresist
  • E-beam resists
  • DUV resists
  • Other metals if they cover less than 5% of the wafer area
  • Quartz/fused silica
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photoresist
  • E-beam resists
  • DUV resists
  • Aluminium
  • Chromium (try to avoid it)
  • 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
  • Silicon
  • Silicon Oxide
  • Silicon Nitride
  • Silicon Oxynitride
  • Photoresist
  • E-beam resists
  • DUV resists
  • Aluminium (Al, Al2O3, AlN)
  • Chromium
  • Titanium (Ti, TiW, TiN, TiO2)
  • Tungsten (W)
  • Molybdynem
  • Quartz/fused silica


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