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The ALD window for deposition of zinc oxide (ZnO) ranges from 100 ^oC to 250 ^oC. Several investigation techniques has been implemented for ZnO characterization. Additionally, more information on ZnO can be found on a page about Al-doped ZnO (AZO)

All results shown on this page have been obtained using the "ZnOT" recipe on new Si(100) wafers with native oxide:

ZnO ALD deposition

ZnO standard recipe

Recipe: ZnOT

Maximum deposition thickness: 100 nm

Temperature: 100 ^oC - 250 ^oC

	DEZ^*	DEZ	H₂O	H₂O
Nitrogen flow	150 sccm	150 sccm	200 sccm	200 sccm
Pulse time	0.1 s	0.1 s	0.1 s	0.1 s
Purge time	0.5 s	20.0 s	0.5 s	20.0 s

DEZ is diethylzinc Zn(CH₂CH₃)₂ or ZnEt₂

ZnO deposition rates and uniformity

The deposition rate for ZnO depends on the temperature, see the ALD-window graph below. The uniformity, thickness, refractive index has been obtained using Ellipsometer VASE.

Figure 1. a) Linear growth (~0.15 nm/cycles) @ 200 ^oC. b) ALD-window for ZnO deposition.
Figure 2. a) Typical uniformity profile across 100mm Si wafer based on 49 mesurement points. b) Photography of the prepared wafer.

Evgeniy Shkondin, DTU Danchip, 2014-2016.

ZnO XPS investigation for elemental trace analysis and deposition on high aspect ratio structures

XPS profile for ZnO has been obtained using XPS-ThermoScientific. ZnO samples reveals (see Figure 3a) chemically high quality films with no observable contaminations in temperature range 100 - 250 ^oC.

The recipe is good for deposition on very high aspect ratio structures (with aspect ratio more than 1:20) such as deep trenches, pillars, pores etc. ZnOT recipe can also be used for deposition on polymers at low temperatures (80-120 ^oC).

Figure 3. a) XPS survey scan b) SEM images of ZnO deposited on a Si trenches at 200 ^oC temperature and 700 cycles. Trenches prepered using DRIE-Pegasus. Inset image shows the photography of the sample.

Evgeniy Shkondin, DTU Danchip, 2014-2016.