Specific Process Knowledge/Thin film deposition/Deposition of Silicon Nitride
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Deposition of silicon nitride
Deposition of silicon nitride can be done by either LPCVD (Low Pressure Chemical Vapor Deposition) or PECVD (Plasma Enhanced Chemical Vapor Deposition). Stoichiometric nitride or silicon rich (low stress) LPCVD nitride is deposited on a batch of wafers in a LPCVD nitride furnace. PECVD nitride (or oxynitride) is deposited on a few samples at a time in a PECVD system. LPCVD nitride has a good step coverage and a very good uniformity. Using PECVD it is possible to deposit a much lower temperature and a thicker layer of nitride on different types of samples, but the nitride does not cover sidewalls very well.
It is also possible to deposit silicon nitride and oxynitride by reactive sputtering.
- Deposition of stoichiometric nitride using the 4" LPCVD nitride furnace
- Deposition of silicon rich (low stress) nitride using the 6" LPCVD nitride furnace
- Nitride deposition using PECVD (or oxynitride)
Comparison of LPCVD, PECVD, and sputter systems for silicon nitride deposition
LPCVD | PECVD | Sputter-System Metal-Nitride(PC3) and Sputter-System Metal-Oxide(PC1) | Lesker sputter system | |
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Generel description |
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*Reactive sputtering |
Stoichiometry |
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Silicon nitride can be doped with boron or phosphorus |
Tunable composition |
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Film thickness |
Thicker nitride layers can be deposited over more runs (maximum two) |
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Process temperature |
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Step coverage |
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Film quality |
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KOH etch rate (80 oC) |
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BHF etch rate |
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Batch size |
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Depending on what PECVD you use |
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Allowed materials |
Processed wafers have to be RCA cleaned |
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