Specific Process Knowledge/Thin film deposition/ALD Picosun R200/ZnO deposition using ALD
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Deposition of ZnO is a standard, well-explored ALD process. Previously (before 2018), DEZ had its independent inlet (A1), which shared the same N2 line with the TiCl4 precursor (A2). The DEZ precursor bottle was placed in a cabinet behind the instrument in the service area, and a long pipe led the precursor to the ALD chamber. This option has been abandoned due to safety reasons. This line was very difficult to purge in case of service. The results that were obtained with the old hardware configuration now remain obsolete. Nowadays, if the user wants to deposit ZnO, in ALD-1 the diethyl zinc (DEZ) has to be mounted in the A-line. If TiCl4 is currently present it has to be exchanged with DEZ. This is a time-consuming job, that needs to be ordered and prepared in advance.
ZnO ALD deposition using DEZ and H2O
ZnO can be deposited in the range between 100 oC to 225 oC. It is not recommended to increase the temperature above 225oC, as the uniformity suffers due to the precursor decomposition. The maximum temperature can be 250oC, here however the film crystal quality, crystallinity, roughness, etc. sufficiently differ from the films prepared in a lower temperature range.
All results shown on this page have been obtained using the present (from 2018) configuration.
Deposition and characterization has been performed in 2021 by Evgeniy Shkondin, DTU Nanolab
ZnO recipes
Recipe: ZnO
Maximum deposition thickness: 100 nm
Temperature: 100 oC - 250 oC
DEZ* | H2O | |
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Nitrogen flow | 150 sccm | 200 sccm |
Pulse time | 0.1 s | 0.1 s |
Purge time | 5.0 s | 5.0 s |
This is a standard recipe of ZnO. It is suitable for coating the flat samples and structures with an aspect ratio of around up to 1:10.
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 |
This is a more complicated recipe that allows coating the sample with very high aspect ratio profiles. One SEM example is shown on one of the images below. 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).
DEZ is diethylzinc Zn(CH2CH3)2 or ZnEt2
Deposition characteristics
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.
Deposition rate
In the graphs below the ZnO thickness vs. number of cycles for deposition temperatures between 100 oC and 250 oC presented. Results have been obtained for <100> 100 mm Si wafers with native oxide, based on ellipsometry study. The optical model used in fitting is based on Tauc-Lorentz and two Lorentz oscillators.
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Deposition rate of ZnO at 100 oC. Substrate: Silicon 4" wafer with native oxide.
Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle Thickness (nm) = 0.1483 \cdot N + 0.63 } -
Deposition rate of ZnO at 150 oC. Substrate: Silicon 4" wafer with native oxide.
Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle Thickness (nm) = 0.1954 \cdot N - 2.73 } -
Deposition rate of ZnO at 200 oC. Substrate: Silicon 4" wafer with native oxide.
Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle Thickness (nm) = 0.1842 \cdot N - 3.80 } -
Deposition rate of ZnO at 250 oC. Substrate: Silicon 4" wafer with native oxide.
Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle Thickness (nm) = 0.1326 \cdot N + 1.13 } -
ALD window of ZnO
Uniformity across 100 mm wafer
Recipe "ZnO" Samples: 100mm ssp-Si
Results have been obtained for <100> 100 mm Si wafers with native oxide, based on ellipsometry study.
Temperature (°C) / Number of cycles | Deposition rate (nm/s) | Average thickness (nm) | Standard deviation | Uniformity (%) |
---|---|---|---|---|
100°C / 500cycles | 0.1483 | 75.67 | 1.49 | 3.26 |
150°C / 500cycles | 0.1954 | 95.32 | 1.32 | 2.44 |
200°C / 500cycles | 0.1842 | 87.97 | 0.31 | 0.63 |
225°C / 500cycles | 0.1622 | 81.09 | 0.45 | 1.07 |
250°C / 500cycles | 0.1326 | 67.92 | 1.71 | 3.82 |
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Uniformity across 100mm wafer. Deposition at 100°C
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Uniformity across 100mm wafer. Deposition at 150°C
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Uniformity across 100mm wafer. Deposition at 200°C
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Uniformity across 100mm wafer. Deposition at 225°C
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Uniformity across 100mm wafer. Deposition at 250°C
Optical functions
Results have been obtained for <100> 100 mm Si wafers with native oxide, based on ellipsometry study.
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Refractive index.
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Absorption coefficient.
SEM images
Images obtained using SEM inspection.
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SEM image of flat surface of ZnO. Deposition at 100°C
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SEM image of flat surface of ZnO. Deposition at 150°C
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SEM image of flat surface of ZnO. Deposition at 200°C
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SEM image of flat surface of ZnO. Deposition at 225°C
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SEM image of flat surface of ZnO. Deposition at 250°C
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ZnO deposition example on high aspect ratio structures. "ZnOT" recipe was used.
ZnO XPS investigation for elemental trace analysis
Chemical composition of ZnO has been analyzed by XPS method. ZnO samples reveals chemically high quality films with no observable contaminations in temperature range 100 - 250 oC.
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XPS survey scan of ZnO.