Specific Process Knowledge/Thin film deposition/ALD2 (PEALD)/TiN deposition using ALD2

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General information

As already mentioned in the general ALD2 (PEALD) page oxides and nitrides cannot be deposited at the same time. Since the aluminium nitride requires the plasma source we only run all nitride processes without the thermal lid. Hence the chamber volume is bigger than with the thermal lid which causes that the substrate temperature is around 50 °C lower than the setpoint.

Result from acceptance test

Deposition of thermal TiN using TMA and NH3 precursors

Recipe name: "TiN thermal with lid" or "TiN thermal without lid".

TiCl4 NH3
Nitrogen flow 100 sccm 100 sccm
Pulse time 0.1 s 2.0 s
Purge time 2.0 s 6.0 s


Danchip has done a deposition with 2000 cycles at 450 °C where the average growth rate was measured to be 0.0173 nm/cycle.

A number of depositions at 500 °C has been made by Evgeniy Shkondin, DTU Photonics. The number of cycles has been changed, and thickness as function of the number of cycles has been plottet as shown in the figure below.

Unlike other ALD2 materials TiN cannot be measured using the ellipsometer. Hence one has to cleave the wafer and measure the thickness in the SEM. Thin layers (less than 20 nm) are difficult to focus on due to charging and vibrations, so they may not be measured properly.

  • TiN crossection of a sample with 2000 cycles deposition at 400 °C on a silicon wafer with thermal oxide. The TiN thicknes is 35.8 nm and the SiO2 thickness is 173.8
  • TiN crossection of a sample with 5000 cycles deposition at 400 °C on a silicon wafer with thermal oxide. The TiN thicknes is 118.5 nm and the SiO2 thickness is 171.0


The roughness of TiN deposited at 45 °C has been measured to be 0,7415 nm.

The resistance of the TiN is depends strongly on the thickness. For very thin layers, a high resistance is measured, and for thicker layers the resistance decreases. The resistance of TiN deposited on glass at 500 °C as function of the thickness can be seen in the figure below (Evgeniy Shkondin, DTU Photonics, May 2017):

TiN with NH3 on trenches

The test was done with 4000 cycles at 450 °C where the average growth rate was measured to be 0.0232 nm/cycle.

TiCl4 NH3
Nitrogen flow 100 sccm 100 sccm
Pulse time 0.5 s 5.0 s
Purge time 2.0 s 6.0 s

The SEM images below show a homogeneous coverage all over the trenches.



Pernille Voss Larsen, Mikkel Dysseholm Mar and Tanja Amport, DTU Danchip, 2016-2017.