Basics

• This page goes over the various ways OSE (Or other interested groups) could go about Lithography, without the need to produce a seperate photomask for each project
• It is similar to Injection Mold Tooling vs 3D Printing
• There are a few ways this could be done at a Makerspace+ Level Scale
• Mainly:
  • LCD (Double Check)
  • DLP (Proven)
  • Laser (Proven)
  • Potentially Electron Beam
• The Main Applications of this Microfabrication capability would be Semiconductors, MEMS , Microfluidics , and potentially Meta-Materials (Although the latter is far more niche) (Although given the Scale of it all it would moreso be for RnD and Edge Cases/Small Batch Production for Them)

Existing Open Source Designs

Breaking Taps (YouTube Channel)

• They have made two so far:
• A Video by the YouTube Channel "Breaking Taps" Titled "DIY Laser Lithography: Micron resolution" ( ~22 Minute Watch )
  • Direct Write Laser Lithography
  • 1-3 Micron Resolution ( Timecode to where they discuss this
  • Mostly 3D Printed Parts + Aluminum Extrusion
  • 4.5nm UV Diode Laser
  • Optical Breadboard Based
  • Microscope Optic at the end
  • Low repeatability due to Low Rigidity, Creep, and Coefficient of Thermal Expansion
  • Was moreso a proof of concept
• A Video by the YouTube Channel "Breaking Taps" Titled "Electron Beam Lithography: drawing images with electrons" ( ~25 Minute Watch )
  • Uses an OTS Electron Microscope and PMMA (Acrylic) Dissolved in Anisole (Also known as Methoxybenzene ) on a Silicon Wafer doped so it is electrically conductive
  • ~100nm Capable, may need to be a bit above that to be reliable ( Timecode to where they discuss this )
  • Also needs more tuning and a proper cleanroom / glovebox !