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

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Etching of Polymer

Stripping of polymer is often done by wet chemistry in a solvent that dissolves the given polymer. If wet chemistry cannot be used or a more controlled etch of the polymer is needed a plasma system is used instead. Plasma ashers are designed for removing polymers in primarily oxygen plasmas. It you need a more directional etch with a masking material RIE2 or ASE can be used.

Polymer Etch by ASE

Plasma asher 1

Plasma asher 2

Comparison of methods for polymer etching

	ASE	Plasma asher 1	Plasma asher 2	Wet Polymer stripping
General description	The ASE was originally a dedicated deep Si etcher, but with the arrival of the Pegasus it has now been opened for polymer etching.	The plasma asher is good for dry stripping polymers. It can also be used for descum and pattering of polymers.	The plasma asher is good for dry stripping polymers. It can also be used for descum and pattering of polymers. This plasma asher is for Si wafers without metals.	Wet polymer etching is used for stripping a resist/polymer when it is no longer needed. E.g. removing resist masks.
Etch direction	Process dependent: Isotropic to anisotropic (vertical to sample surface)	Isotropic	Isotropic	Dissolves the polymer
Possible etch reactants	Oxygen plasma Oxygen plasma mixed with SF₆ CF₄ Ar	Oxygen plasma Oxygen plasma mixed with N₂ CF₄	Oxygen plasma Oxygen plasma mixed with N₂	The different solvents available at Nanolab, such as Acetone 1165 Remover
Substrate size	Samples smaller than 100 mm wafers must be glued to a 100 mm wafer or placed in a reces on a 100 mm wafer. #1 100 mm wafer #1 150 mm wafer (only when system is set up for 150 mm wafers)	Several small samples #25 50 mm wafers #25 100 mm wafers #25 150 mm wafer	Several small samples #25 50 mm wafers #25 100 mm wafers #25 150 mm wafers	Any sample # and size that can go into the beaker used.
Allowed materials	Silicon wafers with layers of Silicon oxide or silicon (oxy)nitride Photoresist/e-beam resist PolySilicon Aluminium Polymers (list?) Quartz/fused silica wafers Metals (no Pb and Te) max 5% wafer coverage Polymer wafers?	Si, SiO2, Si3N4 Glass Metals (no Pb or Te) Resists, polymers	Si, SiO2, Si3N4 Glass Resists, polymers	Any material that may go into the beaker used.

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+'''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''': '''[mailto:labadviser@danchip.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.danchip.dtu.dk/index.php/Specific_Process_Knowledge/Etch/Etching_of_Polymer 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/Etch/Etching_of_Polymer click here]'''
-<!-- Replace "http://labadviser.danchip.dtu.dk/..." wih the link to the Labadviser page-->
+<!-- Replace "http://labadviser.Nanolab.dtu.dk/..." wih the link to the Labadviser page-->
+<!--Page reviewed by jmli 9/8-2022  -->
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 == Etching of Polymer ==
-Stripping of polymer is often done by wet chemistry in a solvent that dissolves the given polymer. If wet chemistry cannot be used or a more controled etch of the polymer is needed a plasma system is used instead. Plasma ashers are design for removing polymers in primarily oxygen plasmas. It you need a more directional etch with a masking material RIE2 or ASE can be used.
+Stripping of polymer is often done by wet chemistry in a solvent that dissolves the given polymer. If wet chemistry cannot be used or a more controlled etch of the polymer is needed a plasma system is used instead. Plasma ashers are designed for removing polymers in primarily oxygen plasmas. It you need a more directional etch with a masking material RIE2 or ASE can be used.
 *[[/Polymer Etch by ASE|Polymer Etch by ASE]]
 <!-- Link to the process info page in LabAdviser -->
-*[[Specific Process Knowledge/Photolithography/Stripping equipment#Plasma_asher_1|Plasma asher 1]]
+*[[Specific Process Knowledge/Lithography/Strip#Plasma_Asher_1|Plasma asher 1]]
 <!-- Link to the process info page in LabAvdiser -->
-*[[Specific Process Knowledge/Photolithography/Stripping equipment#Plasma_asher_2|Plasma asher 2]]
+*[[Specific Process Knowledge/Lithography/Strip#Plasma_Asher_2|Plasma asher 2]]
-*[[/Etch of Photo Resist using RIE|Etch of Photo Resist using RIE]]
-*[[Specific Process Knowledge/Etch/Wet Polymer Etch|Wet Polymer Etch]]
@@ Line 35: / Line 35: @@
 !
 ![[Specific Process Knowledge/Etch/ASE (Advanced Silicon Etch)|ASE]]
-![[Specific Process Knowledge/Photolithography/Stripping equipment#Plasma_asher_1|Plasma asher 1]]
+![[Specific Process Knowledge/Lithography/Strip#Plasma_Asher_1|Plasma asher 1]]
-![[Specific Process Knowledge/Photolithography/Stripping equipment#Plasma_asher_2|Plasma asher 2]]
+![[Specific Process Knowledge/Lithography/Strip#Plasma_Asher_2|Plasma asher 2]]
-![[Specific Process Knowledge/Etch/RIE (Reactive Ion Etch)|RIE2]]
+!Wet Polymer stripping
-![[Specific Process Knowledge/Etch/Wet Polymer Etch|Wet Polymer Etch]]
 |-
 |-
 |-style="background:WhiteSmoke; color:black"
-!Generel description
+!General description
-|The ASE was originally for deep Si etch but has now been turned into a polymer etcher. It should be used for pattering polymers
+|The ASE was originally a dedicated deep Si etcher, but with the arrival of the Pegasus it has now been opened for polymer etching.
-|The plasma asher is good for dry stripping polymers. It can also be used for descum and pattering af polymers.
+|The plasma asher is good for dry stripping polymers. It can also be used for descum and pattering of polymers.
-|The plasma asher is good for dry stripping polymers. It can also be used for descum and pattering af polymers. This plasma asher is for Si wafers without metals.
+|The plasma asher is good for dry stripping polymers. It can also be used for descum and pattering of polymers. This plasma asher is for Si wafers without metals.
-|RIE2 can etch polymers in almost the same way as the ASE. We prefer the you use the ASE but there can be situations where the sample will not be allowed in the ASE (e.g. if there are metal on). If you think you need to use the RIE2 for polymer etching you need to get a special permission from the plasma group, see contact info on the RIE2 page in LabManager.
+|Wet polymer etching is used for stripping a resist/polymer when it is no longer needed. E.g. removing resist masks.
-|Wet polymer etch is used for stripping a resist/polymer when it is no longer needed. E.g. removing resist masks.
 |-
@@ Line 55: / Line 53: @@
 !Etch direction
 |
-Process dependant: <br>
+Process dependent: <br>
 Isotropic to anisotropic (vertical to sample surface)
 |
@@ Line 62: / Line 60: @@
 Isotropic
 |
-Process dependant: <br>
+Dissolves the polymer
-Almost isotropic to anisotropic (vertical to sample surface)
-|
-Isotropic
 |-
 |-
 |-style="background:WhiteSmoke; color:black"
-!Possible etch reactances
+!Possible etch reactants
 |
 *Oxygen plasma
 *Oxygen plasma mixed with
-**CO<sub>2</sub>
 **SF<sub>6</sub>
+**CF<sub>4</sub>
 **Ar
 |
 *Oxygen plasma
 *Oxygen plasma mixed with
+**N<sub>2</sub>
 **CF<sub>4</sub>
-|
-*Oxygen plasma
 |
 *Oxygen plasma
 *Oxygen plasma mixed with
-**CF<sub>4</sub>
+**N<sub>2</sub>
-**SF<sub>6</sub>
 |
-*The different solvents available at Danchip, such as
+*The different solvents available at Nanolab, such as
 **Acetone
 **1165 Remover
-**?
 |-
@@ Line 100: / Line 93: @@
 !Substrate size
 |
-*samples smaller than 100 mm wafers must be glued to a 100 mm wafer or placed in a reces on a 100mm wafer.
+*Samples smaller than 100 mm wafers must be glued to a 100 mm wafer or placed in a reces on a 100 mm wafer.
 *<nowiki>#</nowiki>1 100 mm wafer
-*<nowiki>#</nowiki>1 150 mm wafer (only when system is set up to 150mm wafers)
+*<nowiki>#</nowiki>1 150 mm wafer (only when system is set up for 150 mm wafers)
 |
-*<nowiki>#</nowiki> small samples
+*Several small samples
 *<nowiki>#</nowiki>25 50 mm wafers
 *<nowiki>#</nowiki>25 100 mm wafers
-*<nowiki>#</nowiki>1 150 mm wafer
+*<nowiki>#</nowiki>25 150 mm wafer
 |
-*<nowiki>#</nowiki> small samples
+*Several small samples
 *<nowiki>#</nowiki>25 50 mm wafers
 *<nowiki>#</nowiki>25 100 mm wafers
 *<nowiki>#</nowiki>25 150 mm wafers
 |
-*samples smaller that can fit on a 100mm wafer.
+*Any sample # and size that can go into the beaker used.
-*<nowiki>#</nowiki>1 50 mm wafer
-*<nowiki>#</nowiki>1 100 mm wafer
-*<nowiki>#</nowiki>1 150 mm wafer (only when the system is set up for 150mm wafers).
-|
-*<nowiki>#</nowiki> small samples
-*<nowiki>#</nowiki> 50 mm wafers
-*<nowiki>#</nowiki> 100 mm wafers
-*<nowiki>#</nowiki> 150 mm wafers
 |-
@@ Line 130: / Line 116: @@
 |
 Silicon wafers with layers of
-*silicon oxide or silicon (oxy)nitride
+*Silicon oxide or silicon (oxy)nitride
 *Photoresist/e-beam resist
 *PolySilicon
 *Aluminium
 *Polymers (list?)
-Quartz/fused silica wafers
+*Quartz/fused silica wafers
+*Metals (no Pb and Te) max 5% wafer coverage
 Polymer wafers?
 |
-*Si,SiO2,Si3N4
+*Si, SiO2, Si3N4
-*Metals (no Pb or Tl)
+*Glass
+*Metals (no Pb or Te)
 *Resists, polymers
 |
-*Allowed material 1
+*Si, SiO2, Si3N4
-*Allowed material 2
+*Glass
-|
+*Resists, polymers
-*Allowed material 1
-*Allowed material 2
 |
-*Allowed material 1
+*Any material that may go into the beaker used.
-*Allowed material 2
 |-
 |}
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