Specific Process Knowledge/Lithography: Difference between revisions
| (4 intermediate revisions by the same user not shown) | |||
| Line 152: | Line 152: | ||
<br> | <br> | ||
'''[[Specific Process Knowledge/Lithography/Coaters|Automatic spin coating]]''' | '''[[Specific Process Knowledge/Lithography/Coaters|Automatic spin coating]]''' | ||
*[[Specific_Process_Knowledge/Lithography/Coaters | *[[Specific_Process_Knowledge/Lithography/Coaters/GammaUV|Spin Coater: Gamma UV]] | ||
*[[Specific Process Knowledge/Lithography/ | *[[Specific Process Knowledge/Lithography/Coaters/GammaDUV|Spin Coater: Süss Stepper]] | ||
*[[Specific_Process_Knowledge/Lithography/Coaters | *[[Specific_Process_Knowledge/Lithography/Coaters/GammaEbeam|Spin Coater: Gamma e-beam & UV]] | ||
'''[[Specific Process Knowledge/Lithography/Coaters|Manual spin coating]]''' | '''[[Specific Process Knowledge/Lithography/Coaters|Manual spin coating]]''' | ||
*[[Specific Process Knowledge/Lithography/Coaters | *[[Specific Process Knowledge/Lithography/Coaters/RCD8|Spin Coater: RCD8]] | ||
*[[Specific_Process_Knowledge/Lithography/Coaters | *[[Specific_Process_Knowledge/Lithography/Coaters/labspin|Spin Coater: Labspin 02/03]] | ||
*[[Specific_Process_Knowledge/Lithography/Coaters/labspin04|Spin Coater: Labspin 04 (PFL)]] | |||
'''[[Specific Process Knowledge/Lithography/Coaters|Spray coating]]''' | '''[[Specific Process Knowledge/Lithography/Coaters|Spray coating]]''' | ||
*[[Specific_Process_Knowledge/Lithography/Coaters | *[[Specific_Process_Knowledge/Lithography/Coaters/sprayCoater|Spray Coater]] | ||
'''[[Specific Process Knowledge/Lithography/Baking|Soft & hard baking]]''' | '''[[Specific Process Knowledge/Lithography/Baking|Soft & hard baking]]''' | ||
| Line 172: | Line 173: | ||
<br> | <br> | ||
'''[[Specific Process Knowledge/Lithography/UVExposure|UV Exposure Tools]]''' | '''[[Specific Process Knowledge/Lithography/UVExposure|UV Exposure Tools]]''' | ||
*[[Specific_Process_Knowledge/Lithography/UVExposure | *[[Specific_Process_Knowledge/Lithography/UVExposure/aligner_MA6-1|Aligner: MA6-1]] | ||
*[[Specific_Process_Knowledge/Lithography/UVExposure | *[[Specific_Process_Knowledge/Lithography/UVExposure/aligner_MA6-2|Aligner: MA6-2]] | ||
*[[Specific Process Knowledge/Lithography/UVExposure/aligner_MLA1|Aligner: Maskless 01]] | |||
*[[Specific Process Knowledge/Lithography/UVExposure/aligner_MLA2|Aligner: Maskless 02]] | |||
*[[Specific Process Knowledge/Lithography/UVExposure | *[[Specific_Process_Knowledge/Lithography/UVExposure/aligner_MLA3|Aligner: Maskless 03]] | ||
*[[Specific_Process_Knowledge/Lithography/UVExposure | *[[Specific_Process_Knowledge/Lithography/UVExposure/aligner_MLA4|Aligner: Maskless 04 (PFL)]] | ||
*[[Specific_Process_Knowledge/Lithography/UVExposure | |||
*[[Specific_Process_Knowledge/Lithography/Aligners/MAvsMLA|Mask Aligner vs Maskless Aligner]] | *[[Specific_Process_Knowledge/Lithography/Aligners/MAvsMLA|Mask Aligner vs Maskless Aligner]] | ||
| Line 216: | Line 215: | ||
<br> | <br> | ||
'''[[Specific Process Knowledge/Lithography/Descum|Descum]]''' | '''[[Specific Process Knowledge/Lithography/Descum|Descum]]''' | ||
*[[Specific Process Knowledge/Lithography/Descum | *[[Specific Process Knowledge/Lithography/Descum/plasmaAsher03|Plasma Asher 3: Descum]] | ||
*[[Specific Process Knowledge/Lithography/Descum | *[[Specific Process Knowledge/Lithography/Descum/plasmaAsher04|Plasma Asher 4]] | ||
*[[Specific Process Knowledge/Lithography/Descum | *[[Specific Process Knowledge/Lithography/Descum/plasmaAsher05|Plasma Asher 5]] | ||
*[[Specific_Process_Knowledge/Etch/Wet_Silicon_Oxide_Etch_(BHF)|BHF]] | *[[Specific_Process_Knowledge/Etch/Wet_Silicon_Oxide_Etch_(BHF)|BHF]] | ||
| Line 225: | Line 224: | ||
'''[[Specific Process Knowledge/Lithography/Strip|Strip]]''' | '''[[Specific Process Knowledge/Lithography/Strip|Strip]]''' | ||
*[[Specific Process Knowledge/Lithography/Strip | *[[Specific Process Knowledge/Lithography/Strip/plasmaAsher03|Plasma Asher 3: Descum]] | ||
*[[Specific Process Knowledge/Lithography/Strip | *[[Specific Process Knowledge/Lithography/Strip/plasmaAsher04|Plasma Asher 4]] | ||
*[[Specific Process Knowledge/Lithography/Strip | *[[Specific Process Knowledge/Lithography/Strip/plasmaAsher05|Plasma Asher 5]] | ||
*[[Specific Process Knowledge/Lithography/Strip | *[[Specific Process Knowledge/Lithography/Strip/resistStrip|Resist Strip]] | ||
|} | |} | ||
<br clear="all" /> | <br clear="all" /> | ||
Latest revision as of 10:24, 25 June 2026
The content on this page, including all images and pictures, was created by DTU Nanolab staff, unless otherwise stated.
Feedback to this page: click here
Lithography
Lithography is a technique used to transfer patterns from a physical or digital mask onto a substrate. At DTU Nanolab, four different lithography methods are available, each suited to specific applications and requirements.
UV lithography
UV lithography is a widely used technique in microfabrication for creating patterns on a substrate using ultraviolet light. It is particularly effective for producing features down to about 1 micrometer in size, making it suitable for many conventional semiconductor and microsystem applications. The process relies on transferring patterns from a mask (physical or digital) onto a photoresist-coated surface, offering a reliable and relatively cost-effective approach for medium-resolution fabrication tasks.
DUV stepper lithography
Deep ultraviolet (DUV) stepper lithography is an advanced form of optical lithography designed to achieve much smaller feature sizes, typically down to around 200 nanometers. By using shorter wavelengths and precision stepper systems, it enables high-resolution patterning across wafers with excellent alignment accuracy. This method is commonly used in modern semiconductor manufacturing, where scaling down device dimensions is critical for improving performance and integration density.
E-beam lithography
Electron-beam (e-beam) lithography is a highly precise patterning technique that uses a focused beam of electrons instead of light to define structures. It enables the fabrication of extremely small features, reaching dimensions as low as about 10 nanometers. Due to its high resolution and flexibility, it is often used for research, prototyping, and mask fabrication, although it is generally slower and more expensive than optical methods.
Nanoimprint lithography
Nanoimprint lithography is a patterning technique that relies on mechanically imprinting or stamping nanoscale features onto a surface without the need for irradiation. By pressing a mold into a resist layer, it can replicate fine structures with high fidelity and at relatively low cost. This method is particularly attractive for large-area and high-throughput applications, offering a straightforward alternative to more complex lithographic processes.
Comparing lithography methods at DTU Nanolab
| UV Lithography | DUV Stepper Lithography | E-beam Lithography | Nano Imprint Lithography | |
|---|---|---|---|---|
| Generel description | Pattern transfer via ultraviolet light (UV) | Pattern transfer via deep ultraviolet light (DUV) | Patterning by electron beam | Pattern transfer via hot embossing (HE) |
| Pattern size range | ~1 µm and up (resist type, thickness, and pattern dependent) |
~200 nm and up (pattern type, shape and pitch dependent) |
~10-1000 nm (and larger at high currents) |
~20 nm and up |
| Standard resists |
UV sensitive, positive tone:
UV sensitive, negative tone:
|
DUV sensitive, positive tone:
DUV sensitive, negative tone:
|
E-beam sensitive, positive tone:
E-beam sensitive, negative tone:
|
Imprint polymers:
|
| Resist thickness range | ~0.5 µm to 200 µm | ~50 nm to 2 µm | ~30 nm to 1 µm | ~100 nm to 2 µm |
| Typical exposure time | Mask aligner: 10-180 s per wafer Maskless aligner: 5-60 minutes per wafer |
Process dependent:
Throughput is up to 60 wafers/hour |
Process dependent:
Process time [s]: |
Process dependent, including heating/cooling rates |
| Substrate size |
|
|
We have cassettes fitting:
Only one cassette can be loaded at a time |
|
| Allowed materials | Any standard cleanroom material | Any standard cleanroom material |
Any standard cleanroom material, except:
|
Any standard cleanroom material |
Equipment and Process Pages
|
Pre-lithography
|
Coating & baking
|
Exposure
|
Development
|
Post-lithography
|
Lithography Tool Package Training
DTU Nanolab offers a Tool Package Training course for Lithography (TPT Lithography), which covers the basic theory of lithography as well as an introduction to some of the most used tools for lithographic processing.
You are required to pass this course in order to become eligible for tool training on the lithography equipment in the cleanroom facility of DTU Nanolab. The course includes theory on lithographic processes and common equipment operation and consists of lecture videos followed by a quiz for each video. Once completed successfully, you may continue to the online equipment training for the specific lithography equipment you want to use. After completing the online equipment training, you can then request hands-on training for the equipment in the cleanroom via training@nanolab.dtu.dk.
The course is available via DTU Learn. You sign up for the course by enrolling yourself in the course here
TPT lithography course contents
- Online lecture videos
- Online quiz for each lecture video
Learning objectives
- Coating
- Exposure
- Development
- Resist, substrates and pre-treatment
- Post-lithography steps
Course responsible
- Jens Hindborg Hemmingsen
- Thomas Aarøe Anhøj
If you have questions you can contact us via lithography@nanolab.dtu.dk
Knowledge and Information about Lithography