Specific Process Knowledge/Lithography/nLOF: Difference between revisions
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These problems were largely solved by increasing the PEB time to 120 s. Tests (on Aligner: Maskless 02) have shown that the lithographic performance of nLOF on Si is improved when using 120 s @ 110°C PEB (less stitching, less bias, more negative profile). | These problems were largely solved by increasing the PEB time to 120 s. Tests (on Aligner: Maskless 02) have shown that the lithographic performance of nLOF on Si is improved when using 120 s @ 110°C PEB (less stitching, less bias, more negative profile). | ||
A small report on the tests can be found here: | A small report on the tests can be found here: [[media:nLOF_PEBtime_2019.pdf|'''nLOF PEB time 2019''']]. | ||
==Development== | ==Development== | ||
Revision as of 08:11, 9 April 2025
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Resist description
AZ nLOF 2020 is a negative UV photoresist, suitable for lift-off processes.
Spin coating
Typical spin parameters:
- Spin off: 30-60 s
- Soft bake: 60 s @ 110°C
Post-exposure bake
Typical PEB parameters:
- PEB temperature: 110°C
- PEB time: 60 s
The recommended PEB for nLOF is 60 seconds at 110°C, regardless of resist film thickness.
PEB baking time investigation
While 60 s @ 110°C is adequate for Si substrates, less thermally conductive substrates (glass, III-V materials, chips bonded to carrier), have shown problems using the standard PEB recipe.
These problems were largely solved by increasing the PEB time to 120 s. Tests (on Aligner: Maskless 02) have shown that the lithographic performance of nLOF on Si is improved when using 120 s @ 110°C PEB (less stitching, less bias, more negative profile).
A small report on the tests can be found here: nLOF PEB time 2019.
Development
Development speed:
- Puddle development in 2.38% TMAH (AZ 726 MIF): ~4 µm/min
A 2 µm nLOF resist film is fully developed in ~30 s in 2.38% TMAH (AZ 726 MIF). However, the development can be continued to 60 s in order to get a more negative resist profile (due to increased under-cut).