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Specific Process Knowledge/Thin film deposition/thermalevaporator: Difference between revisions

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|style="background:LightGrey; color:black"|Film thickness||style="background:WhiteSmoke; color:black"|
|style="background:LightGrey; color:black"|Film thickness||style="background:WhiteSmoke; color:black"|
*10Å - 1µm (Al and Ag)
*10Å - 1µm (Al and Ag)
*up to 80 nm (Cr)
*up to 100 nm (Cr) (ask if you wish to deposit more)
*for other metals ask if in doubt
|-
|-
|style="background:LightGrey; color:black"|Deposition rate
|style="background:LightGrey; color:black"|Deposition rate

Revision as of 10:55, 18 June 2025

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Unless otherwise stated, this page is written by DTU Nanolab internal


Thermal evaporator- A system for deposition of metals

Positioned in cleanroom A-1.

This evaporator is intuitive to operate and does not have a lot of bells and whistles. You can see the instrument specifications below.

The main purpose of the thermal evaporator is to deposit Al for removing charging of the resist when doing EBL on isolating substrate. It can also be used for Cr evaporation for the same purpose, and evaporation of Ag, Au, Cu, and Ge. We have also attempted to evaporate Zn, but this resulted in heavy contamination of the chamber that required a lot of effort to clean and the process was not stable.

Up to two sources can be present at the same time (metals in a boat, crucible or rod for evaporation) but there is only one power supply, so only one material can be evaporated at a time.

The user manual, APV, technical information and contact information can be found in LabManager:

Thermal Evaporator in LabManager


Process information

Materials evaporated in the Lesker Thermal Evaporator

We can develop processes for other materials if requested.

Equipment performance and process related parameters

Purpose Deposition of metals
  • Thermal evaporation of metals
Performance Film thickness
  • 10Å - 1µm (Al and Ag)
  • up to 100 nm (Cr) (ask if you wish to deposit more)
  • for other metals ask if in doubt
Deposition rate
  • 0.5-2 Å/s (Al), 5 Å/s (Ag), 1 Å/s (Cr)
  • In general, 0.5-10 Å/s is possible
  • We need to develop a new process for each rate
Thickness uniformity
  • approx. 13 % variation on a 4" wafer with 100 nm Al *
  • approx. 23 % variation on a 4" wafer with 100 nm Ag *
  • approx. 10 % variation on a 6" wafer with 100 nm Cr *
Pumpdown time
  • about 15 min
Process parameter range Process Temperature
  • Approximately room temperature
Process pressure
  • Below 4*10-6 mbar
Substrates Batch size
  • Up to 8" wafer
  • Or several smaller pieces
  • Deposition on one side of the substrate
Substrate material allowed
  • Silicon wafers
  • Quartz wafers
  • Pyrex wafers
Material allowed on the substrate
  • Silicon oxide
  • Silicon (oxy)nitride
  • Photoresist
  • PMMA
  • Mylar
  • Metals

* The variation is defined as (Max-Min)/Average for the various points measured on the wafer. The max. point was around the center and the min. somewhere along the edge. The exact location of the maximum thickness depends how the sample is placed relative to the point of maximum material flux. Measurement by Rebecca Ettlinger, Nov. 2018.

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