Difference between revisions of "Lithography Recipes"

From UCSB Nanofab Wiki
Jump to navigation Jump to search
(→‎Photolithography Recipes: removed recipe table explanation template)
(24 intermediate revisions by 4 users not shown)
Line 1: Line 1:
  +
__NOTOC__
==General Information==
  
 
This page contains information and links to recipes/datasheets spin-coated materials used in the facility.
 
 
 
{| class="wikitable"
  
{| class="wikitable"
 
|+
  
|+
 
!Table of Contents
  
!Table of Contents
 
|-
  
|-
  +
|
|'''<u><big>Photolithography Processes</big></u>'''
  
  +
==='''<big>Photolithography Processes</big>'''===
*'''UV Optical Lithography'''
 
**[[#Photolithography_Recipes |Photo Lithography Recipe section]]
  
***''Has links to starting recipes (spin, bake, exposure, develop etc.) for Contact Aligners, Steppers and Maskless Aligner.''
 
***''Substrate, surface materials, pattern size can often affect process parameters. Users may need to run Focus/Exposure Arrays/Matrix (FEA's/FEM's) with these processes to achieve high-resolution.''
  
**[[#PositivePR |Stocked Lithography Chemical + Datasheets]]
  
***''Lists all stocked photolith. chemicals, PRs, strippers, developers, and links to the chemical's application notes/datasheet, which detail the spin curves and nominal processes.''
  
*'''[[Lithography Recipes#Lift-Off Recipes|Lift-Off Recipes]]'''
  
**''Verified Recipes for lift-off using various photolith. tools''
  
**''General educational description of this technique and it's limitations/considerations.''
  
*'''E-beam Lithography'''
  
**[[#E-Beam_Lithography_Recipes |E-Beam Lithography Recipes]]
  
***''Has links to starting recipes. Substrates and patterns play a large role in process parameters.''
  
**[[#EBLPR |EBL Photoresist Datasheets]]
  
***''Provided for reference, also showing starting recipes and usage info.''
  
*'''[[Lithography Recipes#Holography Recipes|Holography]]'''
  
**''For 1-D and 2-D gratings with 220nm nominal period, available on substrates up to 1 inch square.''
 
**''Recipes for silicon substrates are provided, and have been translated to other substrates by users.''
  
*'''[[#NanoImprinting |Nanoimprinting Resists]]'''
  
**''Datasheets are provided with starting recipes and usage info.''
 
**''Recipes provided are for use in the [[Nano-Imprint_(Nanonex_NX2000) |Nano-Imprint (Nanonex NX2000)]] system only.''
  
   
  +
#'''UV Optical Lithography'''
<u>'''<big>Photolithography Chemicals/Materials</big>'''</u>
  
  +
#*[[#PositivePR |'''Stocked Lithography Chemical + Datasheets''']]
*'''[[#Underlayers |Underlayers]]'''
  
  +
#**''Lists all stocked photolith. chemicals, PRs, strippers, developers, and links to the chemical's application notes/datasheet, which detail the spin curves and nominal processes.''
**''These are used beneath resists for both adhesive purposes and to enable bi-layer lift-off profiles for use with photoresist.''
 
  +
#*[[#Photolithography_Recipes |'''Photo Lithography Recipe section''']]
**''Datasheets are provided.''
  
  +
#**''Starting recipes (spin, bake, exposure, develop etc.) for all photolith. tools.''
*'''[[#AntiReflectionCoatings |Anti-Reflection Coatings]]''':
 
  +
#**''Substrate/surface materials/pattern size can affect process parameters. Users may need to run Focus/Exposure Arrays/Matrix (FEA's/FEM's) with these processes to achieve high-resolution.''
**[[#Photolithography_Recipes |The Photoresist Recipes]] section contains recipes using these materials.
  
  +
#**[[Contact Alignment Recipes|<u>Contact Aligner Recipes</u>]]
**''Bottom Anti-Reflection Coatings (BARC) are used in the stepper systems, underneath the resists to eliminate substrate reflections that can affect resolution and repeatability for small, near resolution limited, feature sizes.''
 
  +
#***[[Contact Alignment Recipes#Suss Aligners .28SUSS MJB-3.29|Suss MJB Aligners]]
**''Datasheets are provided for reference on use of the materials.''
  
  +
#***[[Contact Alignment Recipes#Contact Aligner .28SUSS MA-6.29|Suss MA6]]
*'''[[#ContrastEnhancement |Contrast Enhancement Materials (CEM)]]'''
  
  +
#**[[Stepper Recipes|<u>Stepper Recipes</u>]]
**[[#Photolithography_Recipes |The Photoresist Recipes]] section contains recipes using these materials.
  
  +
#***[[Stepper Recipes#Stepper 1 .28GCA 6300.29|Stepper #1: GCA 6300]] (I-Line)
**''Used for resolution enhancement. Not for use in contact aligners, typically used on I-Line Steppers.''
  
  +
#***[[Stepper Recipes#Stepper 2 .28AutoStep 200.29|Stepper #2: GCA Autostep 200]] (I-Line)
**''Datasheets provided with usage info.''
  
  +
#***[[Stepper Recipes#Stepper 3 .28ASML DUV.29|Stepper #3: ASML PAS 5500/300]] (DUV)
*'''[[#AdhesionPromoters |Adhesion Promoters]]'''
  
  +
#**[[Direct-Write Lithography Recipes|<u>Direct-Write Recipes</u>]]
**''These are used to improve wetting of photoresists to your substrate.''
 
  +
#***[[Direct-Write Lithography Recipes#Maskless Aligner .28Heidelberg MLA150.29|Heidelberg MLA150]]
**''Datasheets are provided on use of these materials.''
  
  +
#***[[Lithography Recipes#E-Beam Lithography Recipes|JEOL JBX-6300FS EBL]]
  +
#***[[Lithography Recipes#FIB Lithography Recipes .28Raith Velion.29|Raith Velion FIB]]
  +
#[[Lithography Recipes#General Photolithography Techniques|'''General Photolithography Techniques''']]
  +
#*''Techniques for improving litho. or solving common photolith. problems.''
  +
#'''[[Lithography Recipes#Lift-Off Recipes|Lift-Off Recipes]]'''
  +
#*''Verified Recipes for lift-off using various photolith. tools''
  +
#*''General educational description of this technique and it's limitations/considerations.''
  +
#'''E-beam Lithography'''
  +
#*[[#E-Beam_Lithography_Recipes |E-Beam Lithography Recipes]]
  +
#**''Has links to starting recipes. Substrates and patterns play a large role in process parameters.''
  +
#*[[#EBLPR |EBL Photoresist Datasheets]]
  +
#**''Provided for reference, also showing starting recipes and usage info.''
  +
#'''[[Lithography Recipes#Holography Recipes|Holography]]'''
  +
#*''For 1-D and 2-D gratings with 220nm nominal period, available on substrates up to 1 inch square.''
  +
#*''Recipes for silicon substrates are provided, and have been translated to other substrates by users.''
  +
#*''Datasheets are provided with starting recipes and usage info.''
  +
|-
  +
|
  +
  +
==='''<big>Photolithography Chemicals/Materials</big>'''===
   
*'''[[#SpinOnDielectrics |Low-K Spin-on Dielectrics]]'''
+
#'''[[#Underlayers |Underlayers]]'''
  +
#*''These are used beneath resists for both adhesive purposes and to enable bi-layer lift-off profiles for use with photoresist.''
**[[Lithography Recipes#SpinOnDielectrics|Spin-On Dielectrics]]
 
***''Datasheets for BCB, Photo-BCB, and SOG (spin-on-glass) for reference on use.''
 +
#*''Datasheets are provided.''
  +
#'''[[#AntiReflectionCoatings |Anti-Reflection Coatings]]''':
**[[#Low-K_Spin-On_Dielectric_Recipes |Low-K Spin-On Dielectric Recipes]]
  
  +
#*[[#Photolithography_Recipes |The Photoresist Recipes]] section contains recipes using these materials.
***''Recipes for usage of some spin-on dielectrics.''
  
  +
#*''Bottom Anti-Reflection Coatings (BARC) are used in the stepper systems, underneath the resists to eliminate substrate reflections that can affect resolution and repeatability for small, near resolution limited, feature sizes.''
*'''[[#Developers |Developers and Removers]]'''
  
**''Datasheets provided for reference.''
 +
#*''Datasheets are provided for reference on use of the materials.''
  +
#'''[[#ContrastEnhancement |Contrast Enhancement Materials (CEM)]]'''
**''Remover and Photoresist Strippers are used to dissolve PR during lift-off or after etching.''
  
  +
#*[[#Photolithography_Recipes |The Photoresist Recipes]] section contains recipes using these materials.
  +
#*''Used for resolution enhancement. Not for use in contact aligners, typically used on I-Line Steppers.''
  +
#*''Datasheets provided with usage info.''
  +
#'''[[#AdhesionPromoters |Adhesion Promoters]]'''
  +
#*''These are used to improve wetting of photoresists to your substrate.''
  +
#*''Datasheets are provided on use of these materials.''
  +
#'''[[#SpinOnDielectrics |Low-K Spin-on Dielectrics]]'''
  +
#*[[Lithography Recipes#SpinOnDielectrics|Spin-On Dielectrics]]
  +
#**''Datasheets for BCB, Photo-BCB, and SOG (spin-on-glass) for reference on use.''
  +
#*[[#Low-K_Spin-On_Dielectric_Recipes |Low-K Spin-On Dielectric Recipes]]
  +
#**''Recipes for usage of some spin-on dielectrics.''
  +
#'''[[#Developers |Developers and Removers]]'''
  +
#*''Datasheets provided for reference.''
  +
#*''Remover and Photoresist Strippers are used to dissolve PR during lift-off or after etching.''
 
|}
  
|}
  +
  +
==General Photolithography Techniques==
  +
  +
*[[Photolithography - Improving Adhesion Photoresist Adhesion|HMDS Process for Improving Adhesion]]
  +
**''Use these procedures if you are finding poor adhesion PR lifting-off), or for chemicals (like BHF) that attack the PR adhesion interface strongly.''
  +
*[[Photolithography - Manual Edge-Bead Removal Techniques|Manual Edge-Bead Removal Techniques]]
  +
**''Removing the edge-bead from your substrate will help with contact litho resolution and alignment.''
   
 
==Photolithography Recipes==
  
==Photolithography Recipes==
   
  +
* <small>'''R''': ''Recipe is available. Clicking this link will take you to the recipe.''</small>
{{Recipe Table Explanation}}
 
  +
* <small>'''A''': ''Material is available for use, but no recipes are provided.''</small>
''Click the tool title to go to recipes for that tool. Click the photoresist title to get the datasheet, also in [[Lithography Recipes#Chemicals Stocked .2B Datasheets|Stocked Chemicals + Datasheets]].''
  
  +
  +
''Click the tool title to go to recipes for that tool.''
  +
  +
''Click the photoresist title to get the datasheet, also found in [[Lithography Recipes#Chemicals Stocked .2B Datasheets|Stocked Chemicals + Datasheets]].''
 
{| class="wikitable" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;" border="1"
  
{| class="wikitable" style="border: 1px solid #D0E7FF; background-color:#ffffff; text-align:center;" border="1"
 
|-
 
|-
Line 64: Line 87:
   
 
|-
 
|-
| bgcolor="#EAECF0" | <!-- INTENTIONALLY BLANK -->
 +
| bgcolor="#EAECF0" |<!-- INTENTIONALLY BLANK -->
 
! colspan="2" align="center" |'''[[Contact Alignment Recipes|<big>Contact Aligner Recipes</big>]]'''
  
! colspan="2" align="center" |'''[[Contact Alignment Recipes|<big>Contact Aligner Recipes</big>]]'''
 
! colspan="3" align="center" |'''[[Stepper Recipes|<big>Stepper Recipes</big>]]'''
  
! colspan="3" align="center" |'''[[Stepper Recipes|<big>Stepper Recipes</big>]]'''
! align="center" |Other
 +
! align="center" |[[Direct-Write Lithography Recipes|Direct-Write Litho. Recipes]]
 
|-
  
|-
 
! width="150" bgcolor="#D0E7FF" align="center" |'''Positive Resists'''
 
! width="150" bgcolor="#D0E7FF" align="center" |'''Positive Resists'''
Line 78: Line 101:
 
|A
  
|A
 
|
  
|
|{{rl|MLA_Recipes|Positive Resist (MLA)}}
 +
|{{rl|MLA_Recipes|Positive Resist (MLA 150)}}
 
|-<!-- This is a White row color -->
  
|-<!-- This is a White row color -->
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/f/fc/AXP4000pb-Datasheet.pdf AZ4210]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/f/fc/AXP4000pb-Datasheet.pdf AZ4210]
Line 86: Line 109:
 
|A
  
|A
 
|
  
|
|
 +
|A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/f/fc/AXP4000pb-Datasheet.pdf AZ4330RS]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/f/fc/AXP4000pb-Datasheet.pdf AZ4330RS]
Line 94: Line 117:
 
|A
  
|A
 
|
  
|
  +
|{{rl|MLA_Recipes|Positive Resist (MLA 150)}}
|
  
 
|-
  
|-
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/a/a2/Az_p4620_photoresist_data_package.pdf AZ4620]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/a/a2/Az_p4620_photoresist_data_package.pdf AZ4620]
Line 105: Line 128:
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/8/8b/OCG825-Positive-Resist-Datasheet.pdf OCG 825-35CS]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/8/8b/OCG825-Positive-Resist-Datasheet.pdf OCG 825-35CS]
| A
 +
|A
| A
 +
|A
| A
 +
|A
| A
 +
|A
|
  
 
|
  
|
  +
|A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/2/29/SPR955-Positive-Resist-Datasheet.pdf SPR 955 CM-0.9]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/2/29/SPR955-Positive-Resist-Datasheet.pdf SPR 955 CM-0.9]
Line 118: Line 141:
 
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
 
|
  
|
  +
|{{rl|MLA Recipes|Positive Resist (MLA 150)}}
|
  
 
|-
  
|-
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/2/29/SPR955-Positive-Resist-Datasheet.pdf SPR 955 CM-1.8]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/2/29/SPR955-Positive-Resist-Datasheet.pdf SPR 955 CM-1.8]
Line 126: Line 149:
 
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
 
|
  
|
|
 +
|A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/3/3f/SPR220-Positive-Resist-Datasheet.pdf SPR 220-3.0]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/3/3f/SPR220-Positive-Resist-Datasheet.pdf SPR 220-3.0]
Line 134: Line 157:
 
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
 
|
  
|
  +
|{{rl|MLA Recipes|Positive Resist (MLA 150)}}
|
  
 
|-
  
|-
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/3/3f/SPR220-Positive-Resist-Datasheet.pdf SPR 220-7.0]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/3/3f/SPR220-Positive-Resist-Datasheet.pdf SPR 220-7.0]
Line 142: Line 165:
 
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Positive Resist (AutoStep 200)}}
 
|
  
|
|
 +
|A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/b/be/3600_D%2C_D2v_Spin_Speed_Curve.pdf THMR-IP3600 HP D]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/b/be/3600_D%2C_D2v_Spin_Speed_Curve.pdf THMR-IP3600 HP D]
Line 150: Line 173:
 
|A
  
|A
 
|
  
|
  +
|{{rl|MLA Recipes|Positive Resist (MLA 150)}}
|A
  
 
|-
  
|-
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/3/38/UV6-Positive-Resist-Datasheet.pdf UV6-0.8]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/3/38/UV6-Positive-Resist-Datasheet.pdf UV6-0.8]
Line 185: Line 208:
 
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
 
|
  
|
  +
|{{rl|MLA Recipes|Negative Resist (MLA 150)}}
|
  
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/5/5e/AZnLOF2020-Negative-Resist-Datasheet.pdf AZnLOF 2020]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/5/5e/AZnLOF2020-Negative-Resist-Datasheet.pdf AZnLOF 2020]
Line 193: Line 216:
 
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
 
|
  
|
  +
|{{rl|MLA Recipes|Negative Resist (MLA 150)}}
|
  
 
|-
  
|-
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/5/5e/AZnLOF2020-Negative-Resist-Datasheet.pdf AZnLOF 2035]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/5/5e/AZnLOF2020-Negative-Resist-Datasheet.pdf AZnLOF 2035]
Line 201: Line 224:
 
| bgcolor="EEFFFF" |A
  
| bgcolor="EEFFFF" |A
 
| bgcolor="EEFFFF" |
  
| bgcolor="EEFFFF" |
| bgcolor="EEFFFF" |
 +
| bgcolor="EEFFFF" |A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/5/5e/AZnLOF2020-Negative-Resist-Datasheet.pdf AZnLOF 2070]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/5/5e/AZnLOF2020-Negative-Resist-Datasheet.pdf AZnLOF 2070]
Line 209: Line 232:
 
|A
  
|A
 
|
  
|
|
 +
|A
 
|-
 
|-
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/8/82/AZnLOF5510-Negative-Resist-Datasheet.pdf AZnLOF 5510]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/8/82/AZnLOF5510-Negative-Resist-Datasheet.pdf AZnLOF 5510]
Line 217: Line 240:
 
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
 
|
  
|
|
 +
|A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/c/c9/UVN-30_-_Negative-Resist-Datasheet_-_Apr_2004.pdf UVN30-0.8]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/c/c9/UVN-30_-_Negative-Resist-Datasheet_-_Apr_2004.pdf UVN30-0.8]
Line 228: Line 251:
 
|-
  
|-
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/7/78/SU-8-2015-revA.pdf SU-8 2005,2010,2015]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/7/78/SU-8-2015-revA.pdf SU-8 2005,2010,2015]
| A
 +
|A
| {{rl|Contact_Alignment_Recipes|Negative Resist (MA-6)}}
 +
|{{rl|Contact_Alignment_Recipes|Negative Resist (MA-6)}}
| A
 +
|A
| A
 +
|A
|
  
 
|
  
|
  +
|A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/2/2c/SU-8-2075-revA.pdf SU-8 2075]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/2/2c/SU-8-2075-revA.pdf SU-8 2075]
Line 241: Line 264:
 
|A
  
|A
 
|
  
|
  +
|{{rl|MLA Recipes|Negative Resist (MLA 150)}}
|A
  
 
|-
 
|-
 
| bgcolor="#D0E7FF" align="center" |NR9-[//wiki.nanotech.ucsb.edu/w/images/8/8f/NR9-1000PY-revA.pdf 1000],[//wiki.nanotech.ucsb.edu/w/images/7/71/NR9-3000PY-revA.pdf 3000],[//wiki.nanotech.ucsb.edu/w/images/f/f9/NR9-6000PY-revA.pdf 6000]PY
  
| bgcolor="#D0E7FF" align="center" |NR9-[//wiki.nanotech.ucsb.edu/w/images/8/8f/NR9-1000PY-revA.pdf 1000],[//wiki.nanotech.ucsb.edu/w/images/7/71/NR9-3000PY-revA.pdf 3000],[//wiki.nanotech.ucsb.edu/w/images/f/f9/NR9-6000PY-revA.pdf 6000]PY
Line 249: Line 272:
 
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
  
|{{rl|Stepper Recipes|Negative Resist (AutoStep 200)}}
 
|
  
|
|
 +
|A
 
|- bgcolor="EEFFFF"
  
|- bgcolor="EEFFFF"
! bgcolor="#D0E7FF" align="center" | '''Anti-Reflection Coatings'''
 +
! bgcolor="#D0E7FF" align="center" |'''Anti-Reflection Coatings'''
 
{{LithRecipe Table}}
 
{{LithRecipe Table}}
 
|-
  
|-
  +
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/3/33/XHRiC-Anti-Reflective-Coating.pdf XHRiC-11]
  +
|
  +
|
  +
|A
  +
|A
  +
|
  +
|A
  +
|- bgcolor="EEFFFF"
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/0/07/DUV42P-Anti-Reflective-Coating.pdf DUV42-P]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/0/07/DUV42P-Anti-Reflective-Coating.pdf DUV42-P]
 
|
  
|
Line 261: Line 292:
 
|{{rl|Stepper Recipes|DUV-42P}}
  
|{{rl|Stepper Recipes|DUV-42P}}
 
|
  
|
  +
|-
|- bgcolor="EEFFFF"
  
 
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/a/af/DS-K101-304-Anti-Reflective-Coating.pdf DS-K101-304]
  
| bgcolor="#D0E7FF" align="center" |[//wiki.nanotech.ucsb.edu/w/images/a/af/DS-K101-304-Anti-Reflective-Coating.pdf DS-K101-304]
 
|
  
|
Line 279: Line 310:
 
*{{fl|Liftoff-Techniques.pdf|Lift-Off Description/Tutorial}}
  
*{{fl|Liftoff-Techniques.pdf|Lift-Off Description/Tutorial}}
 
**How it works, process limits and considerations for designing your process
  
**How it works, process limits and considerations for designing your process
  +
*[[Lift-Off with I-Line Imaging Resist + LOL2000 Underlayer|I-Line Lift-Off: Bi-Layer Process with LOL2000 Underlayer]]
  +
**''Single Expose/Develop process for simplicity''
  +
**''Up to ~130nm metal thickness & ≥500nm-1000nm gap between metal.''
  +
**''Can use any I-Line litho tool (GCA Stepper, Contact aligner, MLA)''
 
*{{fl|Bi-LayerContactprocesswithPMGI.pdf|I-Line Lift-Off: Bi-Layer Process with PMGI Underlayer and Contact Aligner}}
  
*{{fl|Bi-LayerContactprocesswithPMGI.pdf|I-Line Lift-Off: Bi-Layer Process with PMGI Underlayer and Contact Aligner}}
  +
**''Multiple processes for Metal thicknesses ~800nm to ~2.5µm''
  +
**''Uses multiple DUV Flood exposure/develop cycles to create undercut.''
  +
**''Can be transferred to other I-Line litho tools (Stepper, MLA etc.)''
 
*[[Lift-Off with DUV Imaging + PMGI Underlayer|DUV Lift-Off: UV6 Imaging Resist + PMGI Underlayer]]
  
*[[Lift-Off with DUV Imaging + PMGI Underlayer|DUV Lift-Off: UV6 Imaging Resist + PMGI Underlayer]]
  +
**''Single-expose/develop process''
  +
**''Up to ~65nm metal thickness & ~350nm gap between metal''
  +
**''Use thicker PMGI for thicker metals''
   
 
==[[E-Beam Lithography System (JEOL JBX-6300FS)|E-Beam Lithography Recipes (JEOL JBX-6300FS)]]==
  
==[[E-Beam Lithography System (JEOL JBX-6300FS)|E-Beam Lithography Recipes (JEOL JBX-6300FS)]]==
Line 286: Line 327:
 
*Under Development.
  
*Under Development.
   
== [[Focused Ion-Beam Lithography (Raith Velion)|FIB Lithography Recipes (Raith Velion)]] ==
 +
==[[Focused Ion-Beam Lithography (Raith Velion)|FIB Lithography Recipes (Raith Velion)]]==
 
''To Be Added''
  
''To Be Added''
   
Line 293: Line 334:
   
 
''To Be Added''
  
''To Be Added''
 
==[[Nano-Imprint (Nanonex NX2000)|Nanoimprinting Recipes]]==
  
 
*{{fl|Thermal-Nanoimprint-Process-Tutorial-revA.pdf|Thermal Nanoimprint Process and Tutorial}}
  
*{{fl|Nanoinprint-Lithopgraphy-UV-Low-Pressure-Temperature-Ormostamp-PDMS-RevA.docx|UV-Cure Low Temp, Low Pressure, Soft-Stamp Nanoimprint Process}}
  
   
 
==[[Holographic Lith/PL Setup (Custom)|Holography Recipes]]==
  
==[[Holographic Lith/PL Setup (Custom)|Holography Recipes]]==
  +
''The Holography recipes here use the BARC layer XHRiC-11 & the high-res. I-Line photoresist THMR-IP3600HP-D.''
   
*{{fl|Holography_Process_for_1D-lines_and_2D-dots_(ARC-11_%26_THMR-IP3600HP-D)-updated-8-13-2018-A.pdf|Standard Holography Process - on SiO2 on Si}}
 +
*{{fl|Holography_Process_for_1D-lines_and_2D-dots_%28ARC-11_%26_THMR-IP3600HP-D%29-updated-4-8-2021.pdf|Standard Holography Process - on SiO2 on Si}}
 
*{{fl|Holography-Process-Variation-revA.pdf|Holography Process Variations - Set-up Angle - Etching into SiO2 and Si}}
  
*{{fl|Holography-Process-Variation-revA.pdf|Holography Process Variations - Set-up Angle - Etching into SiO2 and Si}}
 
*{{fl|05-SiO2_Nano-structure_Etch.pdf|Etch SiO2 Nano-structure - Changing Side-wall Angle - Etching into Si with a different line-width}}
  
*{{fl|05-SiO2_Nano-structure_Etch.pdf|Etch SiO2 Nano-structure - Changing Side-wall Angle - Etching into Si with a different line-width}}
Line 378: Line 415:
   
 
*{{fl|XHRiC-Anti-Reflective-Coating.pdf|XHRiC-11 (i-line)}}
  
*{{fl|XHRiC-Anti-Reflective-Coating.pdf|XHRiC-11 (i-line)}}
*{{fl|DUV42P-Anti-Reflective-Coating.pdf|DUV42P (DUV) (For AR2 replacement)}}
 +
*{{fl|DUV42P-Anti-Reflective-Coating.pdf|DUV42P-6 (DUV) (For AR2 replacement)}}
 
*{{fl|DS-K101-304-Anti-Reflective-Coating.pdf|DS-K101-304 (DUV developable BARC)}}
  
*{{fl|DS-K101-304-Anti-Reflective-Coating.pdf|DS-K101-304 (DUV developable BARC)}}
   

Revision as of 15:48, 7 July 2022

Table of Contents

Photolithography Processes

  1. UV Optical Lithography
  2. General Photolithography Techniques
    • Techniques for improving litho. or solving common photolith. problems.
  3. Lift-Off Recipes
    • Verified Recipes for lift-off using various photolith. tools
    • General educational description of this technique and it's limitations/considerations.
  4. E-beam Lithography
  5. Holography
    • For 1-D and 2-D gratings with 220nm nominal period, available on substrates up to 1 inch square.
    • Recipes for silicon substrates are provided, and have been translated to other substrates by users.
    • Datasheets are provided with starting recipes and usage info.

Photolithography Chemicals/Materials

  1. Underlayers
    • These are used beneath resists for both adhesive purposes and to enable bi-layer lift-off profiles for use with photoresist.
    • Datasheets are provided.
  2. Anti-Reflection Coatings:
    • The Photoresist Recipes section contains recipes using these materials.
    • Bottom Anti-Reflection Coatings (BARC) are used in the stepper systems, underneath the resists to eliminate substrate reflections that can affect resolution and repeatability for small, near resolution limited, feature sizes.
    • Datasheets are provided for reference on use of the materials.
  3. Contrast Enhancement Materials (CEM)
    • The Photoresist Recipes section contains recipes using these materials.
    • Used for resolution enhancement. Not for use in contact aligners, typically used on I-Line Steppers.
    • Datasheets provided with usage info.
  4. Adhesion Promoters
    • These are used to improve wetting of photoresists to your substrate.
    • Datasheets are provided on use of these materials.
  5. Low-K Spin-on Dielectrics
  6. Developers and Removers
    • Datasheets provided for reference.
    • Remover and Photoresist Strippers are used to dissolve PR during lift-off or after etching.

General Photolithography Techniques

Photolithography Recipes

  • R: Recipe is available. Clicking this link will take you to the recipe.
  • A: Material is available for use, but no recipes are provided.

Click the tool title to go to recipes for that tool.

Click the photoresist title to get the datasheet, also found in Stocked Chemicals + Datasheets.

Photolithography Recipes
Contact Aligner Recipes Stepper Recipes Direct-Write Litho. Recipes
Positive Resists SUSS MJB-3 SUSS MA-6 Stepper 1
(GCA 6300) 		Stepper 2
(AutoStep 200) 		Stepper 3
(ASML DUV) 		MLA150
(Heidelberg)
AZ4110 R R A A R
AZ4210 R R A A A
AZ4330RS R R A A R
AZ4620 A A A A A
OCG 825-35CS A A A A A
SPR 955 CM-0.9 A R R R R
SPR 955 CM-1.8 A A R R A
SPR 220-3.0 R R R R R
SPR 220-7.0 R R R R A
THMR-IP3600 HP D A A R
UV6-0.8 R
UV210-0.3 R
UV26-2.5 A
Negative Resists SUSS MJB-3 SUSS MA-6 Stepper 1
(GCA 6300) 		Stepper 2
(AutoStep 200) 		Stepper 3
(ASML DUV) 		MLA150
(Heidelberg)
AZ5214-EIR R R R R R
AZnLOF 2020 R R R R R
AZnLOF 2035 A A A A A
AZnLOF 2070 A A A A A
AZnLOF 5510 A A R R A
UVN30-0.8 R
SU-8 2005,2010,2015 A R A A A
SU-8 2075 A A A A R
NR9-1000,3000,6000PY R R A R A
Anti-Reflection Coatings SUSS MJB-3 SUSS MA-6 Stepper 1
(GCA 6300) 		Stepper 2
(AutoStep 200) 		Stepper 3
(ASML DUV) 		MLA150
(Heidelberg)
XHRiC-11 A A A
DUV42-P R
DS-K101-304 R
SUSS MJB-3 SUSS MA-6 Stepper 1
(GCA 6300) 		Stepper 2
(AutoStep 200) 		Stepper 3
(ASML DUV) 		MLA150
(Heidelberg)

Lift-Off Recipes

E-Beam Lithography Recipes (JEOL JBX-6300FS)

  • Under Development.

FIB Lithography Recipes (Raith Velion)

To Be Added

Automated Coat/Develop System Recipes (S-Cubed Flexi)

Recipes pre-loaded on the S-Cubed Flexi automated coat/bake/develop system. Only staff may write new recipes, contact the tool supervisor for more info.

To Be Added

Holography Recipes

The Holography recipes here use the BARC layer XHRiC-11 & the high-res. I-Line photoresist THMR-IP3600HP-D.

Low-K Spin-On Dielectric Recipes

Chemicals Stocked + Datasheets

The following is a list of the lithography chemicals we stock in the lab, with links to the datasheets for each. The datasheets will often have important processing info such as spin-speed vs. thickness curves, typical process parameters, bake temps/times etc.

Positive Photoresists

i-line and broadband

DUV-248nm

Negative Photoresists

i-line and broadband

DUV-248nm

Underlayers
E-beam resists
Nanoimprinting
Contrast Enhancement Materials
Anti-Reflection Coatings
Adhesion Promoters
Spin-On Dielectrics

Low-K Spin-On Dielectrics such as Benzocyclobutane and Spin-on Glass

Developers
Photoresist Removers
Retrieved from "https://wiki.nanofab.ucsb.edu/w/index.php?title=Lithography_Recipes&oldid=160128"