Specific Process Knowledge/Thin film deposition/Deposition of Silicon Oxide
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Deposition of Silicon Oxide can be done with either LPCVD, PECVD, by sputter technique or ALD. You can also make a silicon oxide layer by growing a thermal oxide in a hot furnace but that requires a silicon surface as a starting point.
Deposition of Silicon Oxide using LPCVD
The LPCVD oxide you can deposit at DANCHIP is called TEOS oxide. It can be made in the LPCVD TEOS furnace. It is a batch process meaning you can run a batch of 13 wafers at a time. The deposition takes place at temperatures of 725 degrees Celsius. The TEOS oxide has good step coverage and hole filing/covering properties and the film thickness is very uniform over the wafer. We have two standard TEOS processes: One for depositing standard layers ~(0-1.5 µm) and one for deposition thick layers ~(1.5µm-4µm). The TEOS oxide has a dielectric constant very close to the one for thermal oxide (3.65 for TEOS).
Deposition of Silicon Oxide using PECVD
PECVD oxide can be deposited in one of the PECVD systems. You can run 1-3 wafers at a time depending on which one of the PECVD's you use. The deposition takes place at 300 degrees Celcius. This can be of importance for some applications but it gives a less dense film and the oxide is expected to have some hydrogen incorporated. The step coverage and thickness uniformity of the film is not as good as for the LPCVD TEOS oxide. PECVD oxide has excellent floating properties when doped with boron and/or phosphorus. Then it can be used eg. as top cladding for waveguides or encapsulation of various structures/components. In one of our PECVD systems (PECVD3) we allow small amounts of metal on the wafers entering the system, this is not allowed in the LPCVD and in PECVD4.
Deposition of Silicon Oxide using sputter deposition technique
At DTU Nanolab you can also deposit silicon oxide using Lesker, PVD co-sputter/evaporation or IBE Ionfab300 sputter systems. One of the advantages here is that you can deposit on any material you like.
- Deposition of Silicon Oxide using Lesker sputter tool
- Deposition of Silicon Oxide using IBE/IBSD Ionfab300
Deposition of Silicon Oxide using ALD
Thin films of silicon oxide up to 50 nm can also be deposited in the ALD2. The ALD2 uses the plasma source and can therefore only deposit on one wafer at a time. The deposition takes place at 300 oC, where the growth rate is 0.1222nm on flat samples. It is also possible to deposit uniform layers on high aspect ratio structures with a growth rate of 0.1629 nm/cycle.
Comparison of the methods for deposition of Silicon Oxide
LPCVD(TEOS) | PECVD | IBE/IBSD Ionfab300 | Sputter System Lesker | III-V Dielectric evaporator | ALD2 | |
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General description | Low Presure Chemical Vapor Deposition TEOS gives a good quality SiO2 and is a batch process. | Plasma Enhanced Chemical Vapor Deposition has the advantage that a silicon oxide and be deposited with a quit high deposition rate at a rather low temperature. | Sputter deposition: can be done on top of a large range of materials. This system can only run in deposition mode in certain periods. | Sputter deposition: can be done on top of a large range of materials | E-beam evaporation of silicon oxide | Atomic Layer deposition provides an uniform layer with a good covering even on high aspect ratio structures. |
Stochiometry |
Can be doped with boron |
Can be doped with boron, phosphorus or germanium |
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Film thickness range |
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Process Temperature |
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20-250 oC |
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Step Coverage |
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Film Quality |
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Substrate size / Batch size |
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Allowed materials |
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