Specific Process Knowledge/Lithography/UVLithography: Difference between revisions

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===[[Specific Process Knowledge/Lithography/Baking|Baking]]===
===[[Specific Process Knowledge/Lithography/Baking|Baking]]===
===[[Specific Process Knowledge/Lithography/Development|Development]]===
===[[Specific Process Knowledge/Lithography/Development|Development]]===
===[[Specific Process Knowledge/Lithography/Descum|Descum]]===
===[[Specific Process Knowledge/Lithography/Strip|Stripping Resist]]===
===[[Specific Process Knowledge/Lithography/Strip|Stripping Resist]]===
===[[Specific Process Knowledge/Lithography/LiftOff|Lift-off]]===
===[[Specific Process Knowledge/Lithography/LiftOff|Lift-off]]===

Revision as of 15:17, 26 August 2019

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UV Lithography uses ultraviolet light to transfer a pattern from a mask to a wafer coated with photoresist. The photoresist film is spin coated on the wafers and the pattern is transferred to the wafer by using a mask aligner. DTU Danchip houses a number of automatic or semi-automatic coaters and mask aligners.

Getting started

Before you plan your UV processing and request for training on any equipment in UV lithography, please go through the following steps. Include the information in the training request.

If you are new to photolithography, you can visit this wikipedia webpage about photolithography before you start.

  • Prepare a process flow which describes all steps in your UV lithography process. You can find docx-templates in this table.
  • Substrate pretreatment: In many processes it is recommended to pretreat or prime your wafer before spin-coating. In some spin-coaters, these pretreatment processes are included in the spin coating of resist.
  • Spin Coater: Do you wish to use a manual spin coater or a robot spin coater? See a list of spin coaters here.
  • Resist Type: Choose the type of resist you wish to use: a list of UV lithography resist types available at DTU Danchip can be found on this page.
    • Positive tone resist: Resist exposed to UV light will be dissolved in the developer. The mask openings are an exact copy of the resist pattern which is to remain on the wafer.
    • Negative tone resist: Resist exposed to UV light will become polymerized and difficult to dissolve. The mask openings are an inverse copy of the resist pattern which is to remain on the wafer.
  • Thickness of resist: In general, it is recommended to work at or below an aspect ratio of ~1, i.e. where the width of the pattern is larger than the thickness of the resist. Furthermore, when you decide for the resist thickness, consider which transfer you need:
    • For lift-off processes, we recommend resist thickness at least 5 times larger than the thickness of the metal to be lifted.
    • For dry etch or wet etch processes, investigate the resist etch rate of your process as this might limit the minimum thickness of your resist.
  • Exposure: Choose which mask aligner you wish to use, and consider the exposure dose.
    • You can find a list of mask aligners here.
    • You can find information on dose here.
  • Mask: Design and order a photomask for your UV process. A detailed instruction on how to design and order a photomask can be found here.
  • Development: Choose which equipment you wish to use to develop your photoresist from this list. Remember the development chemistry influences the exposure dose.
  • Specify whether you wish to strip or lift-off your resist: strip and lift-off.


Resist Overview

Resist Polarity Spectral sensitivity Manufacturer Comments Technical reports Spin Coating Exposure Developer Rinse Remover Process flows (in docx-format)
AZ 5214E Positive but the image can be reversed 310 - 420 nm AZ Electronic Materials Can be used for both positive and reverse processes with resist thickness between 1 and 4 µm. AZ5214E.pdf‎ Spin Coater: Gamma UV,

Spin Coater: Gamma e-beam & UV,

A manual spin coater or

Spin Coater: RCD8

KS Aligner,

Aligner: MA6 - 2 or

Aligner: 6inch

AZ 351B developer

or

AZ 726 MIF developer

DI water Acetone

Process_Flow_AZ5214_pos.docx‎ Process_Flow_AZ5214_rev.docx‎

AZ 4562 Positive 310 - 440 nm AZ Electronic Materials For process with resist thickness between 6 and 25 µm. AZ4500.pdf‎ Spin Coater: Gamma e-beam & UV,

A manual spin coater or

Spin Coater: RCD8

KS Aligner,

Aligner: MA6 - 2 or

Aligner: 6inch

AZ 351B developer

or

AZ 726 MIF developer

DI water Acetone Process_Flow_thick_AZ4562.docx‎
AZ MiR 701 Positive 310 - 445 nm AZ Electronic Materials High selectivity for dry etch.

Resist thickness 1.5 - 4 µm.

AZ_MiR_701.pdf‎ Spin Coater: Gamma UV,

Spin Coater: Gamma e-beam & UV,

A manual spin coater or

Spin Coater: RCD8

KS Aligner,

Aligner: MA6 - 2 or

Aligner: 6inch

AZ 726 MIF developer DI water Remover 1165 Process_Flow_AZ_MiR701.docx‎
AZ nLOF 2020 Negative 310 - 380 nm AZ Electronic Materials Negative sidewalls for lift-off.

Resist thickness 1.5 - 4 µm.

AZ_nLOF_2020.pdf‎ Spin Coater: Gamma UV;

A manual spin coater or

Spin Coater: RCD8

KS Aligner,

Aligner: MA6 - 2 or

Aligner: 6inch

AZ 726 MIF developer DI water Remover 1165 Process_Flow_AZ_nLOF_2020.docx‎
SU-8 Negative 350 - 400 nm Microchem High aspect ratio.

Resist thickness 1 µm to several 100 µm.

SU-8_DataSheet_2005.pdf‎, SU-8_DataSheet_2075.pdf‎ Spin Coater: RCD8 or

Spin Coater: Manual All Resists

Aligner: 6inch mr-Dev 600 developer (PGMEA) IPA Plasma ashing can remove crosslinked SU-8 Process_Flow_SU8_70um.docx‎


Process information

Pretreatment

Coaters

UV Exposure

Information on UV Exposure Dose

Baking

Development

Descum

Stripping Resist

Lift-off