Specific Process Knowledge/Lithography/CSAR
Simple e-beam pattern in this resist has been tested, the results showed on this page. If you have questions to the process or wish to use this e-beam resist, please contact lithography at DTU Nanolab.
Spin Curves
The thickness is measured on VASE Ellipsometer using a simple Cauchy model for a transparent polymer on Si. The measurements are performed at one incidence angle (70 degrees) only. 9 points on each 4" wafer has been measured; the standard deviation thus representing the homogeinity of the film on the 4" wafers.
Around 2 ml of resist per wafer has been used when fabricating these curves. If you use less than 2 ml, the thickness of the final resist might be smaller than reported here.
| AllResist AR-P 6200.09 (> 2ml per 4" wafer) spinning on Spin Coater: Manual LabSpin A-5, TIGRE, 09-04-2014. Softbake 5 min @ 150 degC. | ||||||
|---|---|---|---|---|---|---|
| Spin Speed [rpm] | Acceleration [1/s2] | Thickness [nm] | ||||
| 2000 | 4000 | 226 | ||||
| 3000 | 4000 | 194 | ||||
| 4000 | 4000 | 170 | ||||
| 5000 | 4000 | 151 | ||||
| 6000 | 4000 | 142 | ||||
| 7000 | 4000 | 127 | ||||
| AllResist CSAR 6200.09 1:1 in anisole (< 2ml per 4" wafer), Spin Coater: Manual LabSpin A-5, TIGRE, 16-06-2014. Softbake 2 min @ 150 degC. | ||||||
|---|---|---|---|---|---|---|
| Spin Speed [rpm] | Acceleration [1/s2] | Thickness [nm] | ||||
| 2000 | 4000 | 84 | ||||
| 3000 | 4000 | 67 | ||||
| 4000 | 4000 | 59 | ||||
| 5000 | 4000 | 53 | ||||
| 6000 | 4000 | 49 | ||||
| AllResist CSAR 6200.18 (< 2ml per 4" wafer), Spin Coater: Manual Standard Resists, E-5, TIGRE, 15-06-2016. Softbake 2 min @ 180 degC. | ||||||
|---|---|---|---|---|---|---|
| Spin Speed [rpm] | Acceleration [1/s2] | Thickness [nm] | ||||
| 2000 | 2000 | 1003 | ||||
| 3000 | 2000 | 809 | ||||
| 4000 | 2000 | 721 | ||||
| 5000 | 2000 | 639 | ||||
| 6000 | 2000 | 586 | ||||
| 7000 | 2000 | 549 | ||||
Contrast Curves
CSAR 6200.09
100 nm lines in both ~70 nm and ~188 nm thick CSAR has been developed with AR-600-546 (standard CSAR developer) at room temperature.
| CSAR Contrast Curve, Processed by TIGRE, FEB-MARCH 2016 | ||||
|---|---|---|---|---|
| Resist | Spin Coat | E-beam exposure | Development | Characterisation |
| CSAR AR-P6200.09 AllResist, CSAR AR-P6200.09 diluted 1:1 in Anisole | 08-02-2016, LabSpin E-5, 4000 rpm, 60s, softbaked 60s @ 205 degC | 09-02-2016, JBX9500 E-2, 2nA aperture 5, doses 40-600 µC/cm2, 100 nm lines and 300 nm spaces | 11-02-2016, Fumehood D-2, AR-600-546, rinsed in IPA 60s. | 02-03-2016 AFM Icon, F-2, ScanAsyst in Air |
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CSAR 6200.18
100 nm lines in ~900 nm thick CSAR has been developed with AR-600-546 (standard CSAR developer) at room temperature.
| CSAR Contrast Curve, Processed by TIGRE, JUNE 2016 | ||||
|---|---|---|---|---|
| Resist | Spin Coat | E-beam exposure | Development | Characterisation |
| CSAR AR-P6200.18 AllResist | 15-06-2016, LabSpin E-5, 2000 rpm, 60s, softbaked 60s @ 205 degC | 15-06-2016, JBX9500 E-2, 2nA aperture 5, doses 40-600 µC/cm2, 100 nm lines and 300 nm spaces | 16-06-2016, Fumehood E-4, AR-600-546, 30s/60s/90s, rinsed in IPA 60s. | JUNE/JULY 2016 SEM Supra 2, 10 keV |
Dark Erosion
Dark erosion has been measured on a un-exposed 4" wafer spin coated with CSAR 6200.18 to a thickness of approximately 549 nm. The resist thickness has been measured by VASE Ellipsometer before development, and after 3 minutes, 13 minutes, and 30 minutes of development in AR 600 546.
The graphs shows the measured thicknesses; the errorbars represents the standard deviations from the ellipsometric measurements. The average etch rate of CSAR is ~0.1 nm/min.
Development
Many resists can be developed in different developers, CSAR can be developed in: AR 600-546, AR 600-548, ZED N-50 and mix of MIBK and IPA among others.
CSAR and ZEP520A are in principle the same chemical, however the pretreatment (filtration and temperature control) can differ.
Some users have reported residues and residual layers when using ZED N-50 on CSAR and vice verca, hence we recommend to use AR 600-546 or AR 600-548 (3 times stronger) to develop CSAR and not ZED N-50.
When this is said some users still observe residues when using AR 600-546, the producer "All resist GMBH" have recommended to use 3-5s, dip in pure MIBK to remove residues.
AR 600 546 will dissolve different plastic materials, hence never use it on PS compounds.
Etch Tests
If you have wafers or chips with CSAR you would like to have tested, please send me an [email].
Chlorine versus flourine-based etches
We have experienced problems with removal of CSAR after chlorine-based dry etch, see the file File:DryEtchTestsCSAR.pdf. It seems the chlorine etch forms particles of chlorinated CSAR on the surface, and these particles remains on the surface after resist removal with AR-600-71. The C4F8/SF6 etch also forms particles on the surface, but much smaller than those formed in the chlorine etch. It seems these particles are removed after 3 minutes in AR-600-71.
How to mount chips in dry etch tools
All etch rates presented here are measured on chips (i.e. diced 4" wafers) crystal bonded to a carrier. The carrier is either a blank Si wafer, a Si wafer spin coated with resist or a Si wafer coated with ALD grown Al2O3.
| Sample | CSAR Etch rate nm/min |
|---|---|
| Full 4" Si wafer with non-patterned ~180 nm CSAR | ~56.5 (based on 2 runs) |
| Full 4" Si wafer with non-patterned ~240 nm CSAR, postbaked 60 sec @ 130 degC |
~56.5 (based on 2 runs) |
| 1/4 4" Si wafer with non-patterned ~125 nm CSAR, not crystal bonded to Si carrier |
~83.3 (based on 3 runs) |
| 1/4 4" Si wafer with non-patterned ~125 CSAR, crystal bonded to 4" Si carrier |
~54 (based on 1 run) |
Etch rates and profile inspection
Continous Etches
| Recipe | Gasses | C4F8 75 sccm, SF6 38 sccm | Profiles of lines exposed at 300 µC/cm2, etched 2:30 minutes (150s) with recipe 'nano1.42'
|
|---|---|---|---|
| Pressure | 4 mTorr,
Strike: 3 secs @ 15 mTorr | ||
| Power | 800 W Coil Power,
40 W Platen Power | ||
| Platen temperature | - 20°C | ||
| Conditions | Conditioning | Pre-clean: 10 min oxygen clean
5 min oxygen clean between runs | |
| Etch rates | Si |
500 nm lines: ~200 nm/min | |
| CSAR | ~55 nm/min |
| Recipe | Gasses | C4F8 70 sccm, SF6 38 sccm | Profiles of lines exposed at 300 µC/cm2, etched 60s with recipe 'ProcessC'
|
|---|---|---|---|
| Pressure | 4 mTorr,
Strike: secs @ mTorr | ||
| Power | 450 W Coil Power, 100 W Platen Power | ||
| Platen temperature | 10°C | ||
| Conditions | Conditioning | Pre-clean: 10 min oxygen clean
5 min oxygen clean between runs | |
| Etch rates | Si |
500 nm lines: ~300 nm/min | |
| CSAR | 158 nm/min |
Bosch Etch
| Recipe | Deposition step | Duration | 2.5 s | Profiles of lines exposed at 300 µC/cm2, etched 6:00 minutes with recipe 'NBoost01'
|
|---|---|---|---|---|
| Gasses | C4F8 50 sccm, SF6 0 sccm | |||
| Pressure | 10 mTorr | |||
| Powers | 500 W Coil | |||
| Etch step (boost) | Duration | 1.5 s | ||
| Gasses | C4F8 0 sccm, SF6 60 sccm | |||
| Pressure | 5 mTorr | |||
| Powers | 400 W Coil, 50 W Platen | |||
| Etch step (main) | Duration | 3.5 s | ||
| Gasses | C4F8 40 sccm, SF6 60 sccm | |||
| Pressure | 15 mTorr | |||
| Powers | 400 W Coil, 20 W Platen | |||
| Platen temperature | 20 °C | |||
| Conditions | Conditioning | Pre-clean: 10 min oxygen clean
5 min oxygen clean between runs | ||
| Etch rates | Si |
200 nm lines: ~700 nm/min | ||
| CSAR | ~18 nm/min | |||
