Overview
Birck supplies a selection of photoresists for both optical and electron beam lithography. Resists that are not supplied may be purchased for use by individual research groups. The chemical mechanism for each resist may be slightly different, so be sure to verify the appropriate process for each resist.
Optical Lithography:
BNC Supplied:
- AZ1518: Positive photoresist, thicknesses from 1-4 μm
- AZ9260: Positive photoresist, thicknesses from 5-20 μm
Used at facility (not supplied):
- SU-8: Negative epoxy resist
Electron Beam Lithography:
BNC Supplied:
- PMMA: Positive resist, BNC supplies:
- 950: A2, A4, A6, A8, A10
495: A2, A4
- XR1541 (HSQ): Negative resist
Used at facility (not supplied):
- ZEP520A: Positive resist.
Optical Photoresists
Composition
The AZ positive resists consist of a resin (Novolak), a photoactive compound or PAC (a DNQ compound), and a solvent (PGMEA).
General Properties of AZ/Ti Photoresists
AZ1518
BNC supplied photoresist
Properties:
AZ1518 is optimized for adhesion and stability in wet etching. It has broad photosensitivity from 310-440 nm, a minimum resolution of 0.8-1.2 µm, and is optimized for thicknesses of 1.5-3 µm (films thicker than 3 µm may begin to show "bubbles", a result of the nitrogen released during exposure that cannot escape the top of the film). It has a softening point at 110 °C, and will begin to formed rounded structures at and beyond this temperature. Beyond 120 °C, the resist will react with oxygen, become brownish, and cracks will begin to form. At 170-180 °C, the resist will crosslink. It is stable in HF/BOE and other acids, though strong acids (Sulfuric, Nitric) and bases will dissolve it. Dry etching performance will be limited by the thermal stability and rounding temperature.
Process:
Starting from a clean, hydrophobic substrate surface, the resist should be processed:
- Spin Coating: AZ 1518 will reach a thickness of ~1.8 µm when spun at 4000 RPM.
- Resist dispense: Dispense resist in center of wafer/sample in puddle.
Spin recipe: It has been found (for 4" wafers) that coverage is best with a direct spin to 4000 RPM without a dispersal step. The spin recipe would then look like:
Step Ramp (s) RPM Dwell (s) 0 0 0 0 1 2.0 4000 40 2 2.0 0 0 For other thicknesses, consult the spin speed chart, via AZ (for a static dispense on 6" wafers):
- Hotplate Prebake: 100 °C for 110 s, or 110 °C for 55 s. (Manufacturer recommends 100 °C for 60 s, but the cleanroom hotplates seem to run somewhat cold.)
- Expose: For a silicon substrate (other materials will have a different reflectivity and require different dosages),
- MJB3: 18 s.
- MA6: 15 s.
- Development: For bath development, mild agitation is recommended. Either AZ 340 or MF26A are recommended, with development in AZ Developer or AZ 400K also possible.
- NaOH based: 1:5 solution of AZ 340:H2O for 50-60 s.
- KOH based: AZ 400K for ?.
- TMAH based: Undiluted MF26A for 30 s, ±10 s depending on substrate reflectivity and resist thickness.
- Postbake: No postbake required for most processes, especially if used for metallization or liftoff.
- Postbake will increase the chemical and thermal stability of the resist for wet or dry etching. In those cases:
Hotplate Postbake: 115 °C for 60 s.
- Postbake will increase the chemical and thermal stability of the resist for wet or dry etching. In those cases:
- Removal: Acetone, Remover PG (or other NMP based stripper), or PRS 2000. Postbaked (above 120 °C resist will require substantially more time to fully remove, and may require heated NMP or Nanostrip for removal.
PGMEA (as AZ EBR Solvent or another brand name) can be used for edge bead removal or dilution.
References:
- AZ 1500 Series Technical Datasheet (Merck GmbH)
- Microchemicals Website: AZ1518
- AZ 1500 Series Positive Photoresist (AZ)
- AZ 1500 Photoresist Data Package (AZ)
- AZ 1500 Standard Photoresists (Clariant GmbH)
AZ9260
BNC supplied photoresist
For thick (>5 µm) films of AZ9260, the required exposure time will depend on the photoresist thickness.
References:
- MicroChem: AZ9200
- Clariant: AZ9200
- AZ Electronic Materials: AZ9260 Photoresist
- UMN: Thick AZ9260 - Double Coat
- CMI: AZ9260 Parameters
AZ 5214
Not BNC supplied, must be purchased by individual research groups
LOR3B
IMPORTANT CONTAMINATION NOTE
Per Microchem: Ensure that acetone and resist waste are kept separate from LOR/PMGI waste streams. LOR/PMGI will precipitate in the presence of acetone, PGMEA, and ethyl lactate and may clog lines or form unwanted solids in the collection area.
Not BNC supplied, must be purchased by individual research groups
LOR3B is a mixture of the solvents Cyclopentanone and 1-Methoxy-2-propanol, with a 'Polyaliphatic imide copolymer' as the polymer. Edge beads can be removed with EBR PG, and it can be lifted off with Remover PG.
References:
Electron Beam Photoresists
950 PMMA A4
BNC supplied photoresist
Properties
- Composition: 4% polymethylmethacrylate of average molecular weight 950,000 dissolved in anisole.
- Positive tone.
- Refractive Index: 1.49-1.52 at 632.8nm.
Pros: - Good adhesion to most substrates
- Very high resolution (down to 10 nm).
- Long shelf life and spun film life
- Insensitive to white light
- Resistant to water, IPA/Methanol, TMAH based developers, and dilute acids for short periods
Cons: - Poor etch resistance for dry etching
- Low contrast
- Attacked by acetone, HF, Piranha.
Manufacturer recommended process
(summarized from Microchem PMMA Data Sheet)
- Solvent clean of substrate.
- Dispense 5 - 8 mL for a 150 mm wafer.
- Ramp to 500 RPM for 5 s OR let sit without rotation for 10 s.
- Quick ramp to spin speed, holding for 45 s.
- Prebake on hot plate at 180 C for 60-90 s.
- Expose with dose between 50-500 μC/cm2 depending on equipment and polymer.
- Development: For high resolution, 1:3 MIBK to IPA for 60-120 s. Rinse in IPA or DI water immediately following develop to prevent scumming. Blow dry.
- (Optional) Postbake: 100 C hot plate for 60-90 s. Note that PMMA will reflow above 125 C.
- Removal: Will generally be removed by common positive PR strippers, including acetone. Thorough removal can be accomplished with Remover PG at 50-60 C.
Notes
Sensitivity of PMMA depends on the concentration, developer used, and accelerating voltage of the exposure (e.g. Rooks 2002) . At 100 kV for our PMMA, developed in 1:3 MIBK/IPA, 700 μC/cm2 may be a good dose for 2D features (Hoole 1997), with small isolated lines requiring a dose >3000 μC/cm2 .
PMMA References:
- Microchem product page
- Microchem PMMA FAQ
- Microchem PMMA Data Sheet
- Microchem technical reference list
- Optical constants of PMMA 950
XR1541 (HSQ)
BNC supplied photoresist
Properties
ZEP520A
Not BNC supplied, must be purchased by individual research groups
ZEP520 References:
References
MicroChemicals Photoresist references:
General Properties of AZ/Ti Photoresists
Action of DNQ photoresists: