Specific Process Knowledge/Lithography/4562: Difference between revisions

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AZ 4562 is a positive UV photoresist for thick coatings (above 5µm).
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==Priming==
[[Category: Lithography|Resist]]
[[Category: Resist|AZ 4562]]
 
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Using HMDS priming with AZ 4562 seems to cause more problems than it solves, and i generally not recommended. HMDS priming seems to make the adhesion worse, maybe due to accumulation of N2 at the resist-substrate interface.
==Resist description==
AZ 4562 is a positive UV photoresist for thick coatings (5 - 10 µm).


If adhesion failure is an issue, a dehydration bake (e.g. 1min at 100°C) just before spin coating is recommended. Also, storing the coated substrates before exposure also leads to adhesion failure after as little as a couple of days.
==Priming==
HMDS priming is recommended for improved adhesion.


==Spin coating==
==Spin coating==
[[Image:4562spincurves.JPG|500x500px|thumb|Spin curves for AZ 4562 using 60 s spin-off and 60 s @ 100°C softbake on LabSpin, and 30 s spin-off and 300 s @ 100°C 1 mm proximity softbake on Gamma]]
'''Typical spin parameters:'''
*Spin off: 30-60 s
*Soft bake: 300 s @ 100°C in proximity


[[Image:4562spincurves.JPG|500x500px|thumb|Spin curves for AZ 4562 using 60s spin-off and 60s@100°C softbake on LabSpin, and 30s spin-off and 300s@100°C 1mm proximity softbake on Gamma]]


The thickest coating using a normal spin cycle is probably 10-15µm. However, reducing the spin-off time to a few seconds at 2000rpm has successfully been used to increase the coating thickness beyond 20µm on a Gamma coater. The substrate is rested for 1min before softbake in order to reduce the edge bead height.  
The thickest achievable coating using a normal spin cycle is 10 µm. However, reducing the spin-off time to a few seconds at 2000 rpm, has successfully been used to increase the coating thickness beyond 20 µm on a Gamma coater. The substrate waits for 1 min before softbake, in order to reduce the edge bead height.  


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==Exposure==
==Exposure==
Before exposure, the resist must be rehydrated:
*A 1-2 µm resist film requires less than 1 minute
*A 6 µm resist film requires 15-20 min
*A 10 µm resist film requires an hour, or more


Before exposure, the resist must be rehydrated. A 1-2µm thick resist rehydrates in less than 1 minute, a 6µm layer requires 15-20min, and a 10µm layer requires up to an hour.


After exposure, the nitrogen generated must be allowed to diffuse out, in order to avoid bubble formation (in particular before any heating). This process is similar to rehydration, but usually slower.
After exposure, the nitrogen generated in the resist film must be allowed to diffuse out, in order to avoid bubble formation (in particular before any heating). This process is similar to rehydration, but usually slower.


In order to avoid heating during exposure, leading to the formation of bubbles, it is recommended to use multiple exposure, limiting the exposure time for each cycle to 10-15s, and using a 10-15s pause between cycles.
 
'''Exposure in mask aligner:'''<br>
In order to avoid heating during exposure, leading to the formation of bubbles, it is recommended to use multiple exposure, limiting the exposure time for each cycle to 10-15 s, and using a 10-15 s pause between cycles.


==Development==
==Development==
'''Development speed:'''
*Puddle development in 2.38% TMAH (AZ 726 MIF): ~2 µm/min


The recommended development speed for AZ 4562 is 2µm/min. A 6.2µm resist film thus requires 3min development, usually as three 60s puddles of TMAH (AZ 726 MIF). 10µm AZ 4562 has successfully been developed using 4x60s development
'''Multi-puddle development:'''<br>
The recommended development speed in 2.38% TMAH (AZ 726 MIF) for AZ 4562 is 2 µm/min.<br>
A 6.2 µm resist film requires ~3 min development, recommended as three separate 60 s puddles. 10 µm AZ 4562 has successfully been developed using 4 x 60 s development.

Latest revision as of 15:04, 5 April 2023

This section, including all images and pictures, is created by DTU Nanolab staff unless otherwise stated.

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Resist description

AZ 4562 is a positive UV photoresist for thick coatings (5 - 10 µm).

Priming

HMDS priming is recommended for improved adhesion.

Spin coating

Spin curves for AZ 4562 using 60 s spin-off and 60 s @ 100°C softbake on LabSpin, and 30 s spin-off and 300 s @ 100°C 1 mm proximity softbake on Gamma

Typical spin parameters:

  • Spin off: 30-60 s
  • Soft bake: 300 s @ 100°C in proximity


The thickest achievable coating using a normal spin cycle is 10 µm. However, reducing the spin-off time to a few seconds at 2000 rpm, has successfully been used to increase the coating thickness beyond 20 µm on a Gamma coater. The substrate waits for 1 min before softbake, in order to reduce the edge bead height.


Exposure

Before exposure, the resist must be rehydrated:

  • A 1-2 µm resist film requires less than 1 minute
  • A 6 µm resist film requires 15-20 min
  • A 10 µm resist film requires an hour, or more


After exposure, the nitrogen generated in the resist film must be allowed to diffuse out, in order to avoid bubble formation (in particular before any heating). This process is similar to rehydration, but usually slower.


Exposure in mask aligner:
In order to avoid heating during exposure, leading to the formation of bubbles, it is recommended to use multiple exposure, limiting the exposure time for each cycle to 10-15 s, and using a 10-15 s pause between cycles.

Development

Development speed:

  • Puddle development in 2.38% TMAH (AZ 726 MIF): ~2 µm/min


Multi-puddle development:
The recommended development speed in 2.38% TMAH (AZ 726 MIF) for AZ 4562 is 2 µm/min.
A 6.2 µm resist film requires ~3 min development, recommended as three separate 60 s puddles. 10 µm AZ 4562 has successfully been developed using 4 x 60 s development.