Silicon nitride can be etched using either wet chemistry or dry etch equipment. Wet chemistry is mainly used to remove all the nitride on the surface (backside and frontside) of a wafer. Dry etching etches one side at a time and can be used to etch structures with several masking materials.
Comparison of wet Silicon Nitride etch and RIE etch for etching of Silicon Nitride
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Wet Silicon Nitride etch
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Buffered HF (BHF)
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RIE
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General description
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- Isotropic etch
- Well suited for removing all nitride on a wafer surface (nitride strip) without a mask. High selectivity Si3N4/Si (>100) and Si3N4/SiO2 (>20) @ 180 C.
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- Isotropic etch
- Well suited for removing all PECVD nitride on a wafer surface (nitride strip) without a mask. Etches LPCVD nitride very slowly
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- Anisotropic etch: vertical sidewalls
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Possible masking materials:
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- Silicon Oxide
- PolySilicon
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- Photoresist
- PolySilicon
- Blue film
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- Photoresist
- Silicon Oxide
- Aluminium
- Chromium (ONLY RIE2!)
- Other metals if they cover less than 5% of the wafer area (ONLY RIE2!)
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Etch rate
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- Si3N4 @ 180 oC: ~84 Å/min
- Si3N4 @ 160 oC: ~60 Å/min
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- PECVD nitride: ~400-1000 Å/min
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- Typically 40-50 nm/min can be increased or decreased by using other recipe parameters.
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Batch size
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Size of substrate
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- 4" wafers or smaller pieces
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Allowed materials
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- Silicon
- Silicon Oxide
- Silicon Nitride
- Silicon Oxynitride
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- Silicon
- Silicon Oxide
- Silicon Nitride
- Silicon Oxynitride
- Photoresist
- Blue film
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- Silicon
- Silicon Oxide
- Silicon Nitride
- Silicon Oxynitride
- Photoresist
- E-beam resist
- Aluminium
- Chromium (ONLY RIE2!)
- Other metals if they cover less than 5% of the wafer area (ONLY RIE2!)
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