Specific Process Knowledge/Lithography/Development: Difference between revisions

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{{:Specific Process Knowledge/Lithography/Development/DUV_developer}}

Revision as of 08:44, 3 February 2023

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

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Development Comparison Table

Equipment Developer: SU8 Developer: E-beam Developer: TMAH Manual Developer: TMAH UV-lithography Developer: TMAH Stepper
Purpose


Development of:

  • SU-8

Development of:

  • ZEP 520A
  • AR-P 6200.xx (CSAR)

Development of:

  • AZ nLOF
  • AZ MiR 701
  • AZ 5214E
  • AZ 4562
  • DUV resists

Development of:

  • AZ nLOF
  • AZ MiR 701
  • AZ 5214E
  • AZ 4562
  • DUV resists

Post-exposure baking

Development of:

  • DUV resists

Post-exposure baking

Developer

mr-Dev 600 (PGMEA)

  • ZED N-50
  • AR-600-546

AZ 726 MIF (2.38% TMAH in water)

AZ 726 MIF (2.38% TMAH in water)

AZ 726 MIF (2.38% TMAH in water)

Method Development

Submersion

Spray/Puddle

Spray/Puddle

Puddle

Puddle

Handling

Single wafer carrier

  • Vacuum chuck for 100 mm & 150 mm substrates
  • Chip chuck for chips & 2" substrates
  • Vacuum chuck for 100 mm & 150 mm substrates
  • Chip chuck for chips & 2" substrates

Vacuum chuck

Vacuum chuck

Process parameters Temperature

Room temperature

Room temperature

Room temperature

Room temperature

Room temperature

Agitation

Magnetic stirrer

Rotation

Rotation

Rotation

Rotation

Rinse

IPA

IPA

DI water

DI water

DI water

Substrates Substrate size
  • 100 mm wafers
  • Chips (5mm to 2")
  • 50 mm wafers
  • 100 mm wafers
  • 150 mm wafers
  • Chips (5mm to 2")
  • 100 mm wafers
  • 150 mm wafers
  • 100 mm wafers
  • 150 mm wafers
  • 200 mm wafers (may require tool change)
  • 100 mm wafers
  • 150 mm wafers
  • 200 mm wafers (may require tool change)
Allowed materials
  • Silicon and glass substrates
  • Film or pattern of all but Type IV

All cleanroom approved materials

  • All cleanroom approved materials
  • Film or pattern of all types
  • Silicon and glass substrates
  • Film or pattern of all but Type IV
  • Silicon, III-V, and glass substrates
  • Film or pattern of all but Type IV
Batch

1 - 6

1

1

1 - 25

1 - 25



Developer: SU8

The SU8-Developer bench is located in C-1

The SU8-Developer bench is a manually operated chemical bench for submersion development of SU-8 photoresist in PGMEA (supplied in the cleanroom as mr-Dev 600). The development process is in two stages; one bath (FIRST) to dissolve the bulk of the resist, and a second, cleaner bath (FINAL) to finish the development. The development time is controlled manually by the user. After development, the substrates are rinsed with IPA and dried in the bench.

The user manual, user APV, and contact information can be found in LabManager - requires login

Process information

Several aspects of the outcome of SU-8 processing are affected by the development process. The lithographic resolution is affected by the time between PEB (post-exposure bake) and development, as the cross-linking process continues in the interface between exposed and unexposed regions even at room temperature. Cracks in the structures is affected by two things; the development time, and how much has previously been developed in the developer bath. Cracking is worse with longer development time, and worst in a new developer bath. The effect of the developer use quickly saturates (5-10 wafers). Finally, the stability of fine structures (high aspect ratio) is affected by the rinse after development, as the lower surface tension of IPA compared to PGMEA reduces pattern collapse during drying.


Development time is strongly dependent on the SU-8 thickness.

  • Minimum development time: 1 min per 20 µm in FIRST


Suggestions:

  • 2-5µm: 2 min. in FIRST; 2 min. in FINAL
  • 40µm: 5 min. in FIRST; 5 min. in FINAL (however, 3 min. in FIRST and 2 min. in FINAL is sufficient)
  • 180-250µm: 15 min. in FIRST; 15 min. in FINAL

Equipment performance and process related parameters

Purpose

Development of:

  • SU-8
Developer

mr-Dev 600

(PGMEA)

Method Development

Submersion

Handling

Single wafer holder

Process parameters Temperature

Room temperature

Agitation

Magnetic stirrer

Rinse

IPA

Substrates Substrate size
  • 100 mm wafers
  • 150 mm wafer is possible if the developer liquid level is high enough
Allowed materials
  • Silicon and glass substrates
  • Film, or pattern, of all materials except Type IV
Batch

1-6


Developer: E-beam

Developer: E-beam is located in E-4

Developer: E-beam is a manually operated, single substrate or chip spray-puddle developer. It uses the N50 or AR 600-546 developers and IPA for rinsing. The substrates or chips are loaded manually one by one into the developer. Developer dispense, puddle time, IPA rinse, and drying is performed automatically by the equipment.

The machine is setup to agitate and be stationary to enhance the development uniformity - this is a ongoing process.

Training video (for Developer: TMAH Manual, but it is the same model)

The user manual, user APV, and contact information can be found in LabManager - requires login

Process information

All recipes are single puddle. N50 and 546 denotes the developer used (546 is short for AR 600- 546). The first step is pressurizing the canister so nothing will happen visually. Please watch if the developer and rinsing starts. If not try to restart the machine by pressing the EMO and turning it on again. The spray is 8-10 s and will start the development process hence the short recipes (10s and 30s.) have been adjusted according to this.

Process recipes

  • 546 10s: 10s. Development Rinse and dry.
  • 546 30s: 60s. Development Rinse and dry.
  • 546 60s: 60s. Development Rinse and dry.
  • 546 180s: 180s. Development Rinse and dry.
  • N50 10s: 10s. Development Rinse and dry.
  • N50 30s: 30s. Development Rinse and dry.
  • N50 60s: 60s. Development Rinse and dry.
  • N50 90s: 90s. Development Rinse and dry.
  • N50 120s: 120s. Development Rinse and dry.
  • N50 180s: 180s. Development Rinse and dry.
  • N50 300s: 300s. Development Rinse and dry.
  • N50 180s6": Test for changing the agitation for 6" uniformity 180s. Development Rinse and dry.
  • Testdev: The time can be modified 60s. Development Rinse and dry on AR 600-546.
  • Rinse: Rinse and dry.

Utility recipes

  • UTIL-DR: Dome rinse.
  • UTIL-BE: Bottle empty. Nanolab use only.

Equipment performance and process related parameters

Purpose

Development of:

  • CSAR
  • ZEP520A
Developer
  • AR 600 - 546 (developer X AR 600-54/6) used for CSAR 6200 series resists
  • ZED N-50 used for Zep520A resists
Method Development

Spray/Puddle

Handling
  • Vacuum chuck for 100 mm or 150 mm wafers
  • Chip chick for chips and 2" wafers
Process parameters Temperature

Room temperature

Agitation

Rotational agitation at 15 rpm

Rinse

IPA

Substrates Substrate size
  • Chips (6-60 mm)
  • 2" wafers
  • 100 mm wafers
  • 150 mm wafers
Allowed materials
  • All cleanroom approved materials
  • Film, or pattern, of all materials except Type IV
Batch

1


Developer: TMAH Manual

Developer: TMAH Manual is located in E-4

Developer: TMAH Manual is a manually operated, single substrate or chip spray-puddle developer. It uses the TMAH based AZ 726 MIF developer (2.38 % TMAH in water with a small amount of wetting agent). The substrates or chips are loaded manually one by one into the developer. Developer dispense, puddle time, water rinse, and drying is performed automatically by the equipment.

The spray nozzle makes it difficult to build up a perfect puddle on 4" or 6" substrates which affects the effectiveness and uniformity of the development. Pre-wetting during dispense or agitation during development may give better results.


Training video


The user manual, user APV, and contact information can be found in LabManager - requires login

Process information

Process recipes

  • DP 2x60s: Double puddle, 2 times 60s. Rinse and dry.
  • MP 4x60s: Multiple puddle, 4 times 60s. Rinse and dry.
  • SP 120s: Single puddle, 120s. Rinse and dry.
  • SP 15s: Single puddle, 15s. Rinse and dry.
  • SP 30s: Single puddle, 30s. Rinse and dry.
  • SP 60s: Single puddle, 60s. Rinse and dry.

Utility recipes

  • UTIL-DR: Dome rinse.
  • UTIL-BE: Bottle empty. Nanolab use only.

Equipment performance and process related parameters

Purpose

Development of:

  • AZ nLOF
  • AZ MiR 701
  • AZ 5214E
  • AZ 4562
  • DUV resists
Developer

AZ 726 MIF

(2.38% TMAH in water)

Method Development

Spray/Puddle

Handling
  • Edge handling chuck for 100 mm and 150 mm wafers
  • Vacuum chuck for 100 mm and 150 mm wafers
  • Chip chuck for chips and 2" wafers
Process parameters Temperature

Room temperature

Agitation

none

Rinse

DI water

Substrates Substrate size
  • Chips (6-60 mm)
  • 100 mm wafers
  • 150 mm wafers
Allowed materials
  • All cleanroom approved materials
  • Film, or pattern, of all materials except Type IV
Batch

1


Developer TMAH UV-lithography

Developer: TMAH UV-lithography is located in E-4

Developer TMAH UV-lithography was released Q4 2014.


Training video


The user manual, user APV, and contact information can be found in LabManager - requires login

Process Information

Equipment performance and process related parameters

Purpose

Development of

  • AZ nLOF
  • AZ MiR 701
  • AZ 5214E
  • AZ 4562
  • DUV resists
Developer

AZ 726 MIF

(2.38% TMAH in water)

Method Development

Puddle

Handling

Vacuum chuck

Process parameters Temperature

Room temperature

Agitation

Rotation

Rinse

DI water

Substrates Substrate size
  • 100 mm wafers
  • 150 mm wafers
Allowed materials

Silicon and glass substrates

Film or pattern of all except Type IV

Batch

1-25