Specific Process Knowledge/Etch: Difference between revisions
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{{Feedback link|Page_name=Specific_Process_Knowledge/Etch}} <br> | |||
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Etching at | |||
=Wet etch or dry etch= | |||
Etching at Nanolab Fabrication can be done either with wet chemistry or in dry etch equipment. In general wet chemistry etches isotropically in most materials were as dry etch techniques can be optimized to transfer a given mask pattern with vertical sidewalls (anisotropically) to a given substrate. | |||
'''Advantages of wet chemistry over dry etch techniques are:''' | '''Advantages of wet chemistry over dry etch techniques are:''' | ||
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*Anisotropic etch can be done. | *Anisotropic etch can be done. | ||
*The etch does not attack the backside of the sample. | *The etch does not attack the backside of the sample. | ||
''' Dry etch Tool Package Training ''' | |||
*[[LabAdviser/Courses/TPT_Dry_Etch|Dry etch TPT info]] | |||
== Choose material to be etched == | == Choose material to be etched == | ||
[http://labmanager.dtu.dk/view_binary.php?class=MiscDocument&id=2&name=180612_III-V_exoticall_MH.xlsx Dry etching of III-V materials and exotic materials in some other European Cleanroom facility login required] | |||
{| {{table}} | {| {{table}} | ||
| align="left" valign="top" style="background:LightGray"|''' Dielectrica''' | | align="left" valign="top" style="background:LightGray"|''' Dielectrica''' | ||
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*[[/Etching of Silicon Nitride|Silicon Nitride]] | *[[/Etching of Silicon Nitride|Silicon Nitride]] | ||
*[[/Etching of Silicon Oxide|Silicon Oxide]] | *[[/Etching of Silicon Oxide|Silicon Oxide]] | ||
*[[/Titanium Oxide|Titanium Oxide]] | |||
*[[/Aluminum Oxide|Aluminum Oxide]] | |||
*[[/Etching of Bulk Glass|Bulk Glass]] - ''Borofloat (pyrex) and fused silica (quartz)'' | *[[/Etching of Bulk Glass|Bulk Glass]] - ''Borofloat (pyrex) and fused silica (quartz)'' | ||
|style="background: #DCDCDC"| | |style="background: #DCDCDC"| | ||
*[[/Etching of Silicon|Silicon]] | *[[/Etching of Silicon|Silicon]] | ||
*[[/ | *[[/Wet III-V Etches|InP]] | ||
*[[/ | *[[/Wet III-V Etches|GaAs]] | ||
*[[/ | *[[/Wet III-V Etches|InGaAs]] | ||
*[[/ | *[[/Wet III-V Etches|AlGaAs]] | ||
|style="background: LightGray"| | |style="background: LightGray"| | ||
*[[/Etching of Aluminium|Aluminium]] | *[[/Etching of Aluminium|Aluminium]] | ||
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|-valign="top" | |-valign="top" | ||
|style="background: LightGray"| | |style="background: LightGray"| | ||
*[[/ | *[[/DryEtchProcessing| Dry Etch page: General processing and hardware comparison/manuals]] | ||
*[[/ASE (Advanced Silicon Etch)|ASE (Advanced Silicon Etch)]] | *[[/ASE (Advanced Silicon Etch)|ASE (Advanced Silicon Etch)]] | ||
*[[/AOE (Advanced Oxide Etch)|AOE (Advanced Oxide Etch)]] | *[[/AOE (Advanced Oxide Etch)|AOE (Advanced Oxide Etch)]] | ||
*[[/DRIE-Pegasus|DRIE-Pegasus ( | *[[/DRIE-Pegasus| DRIE-Pegasus systems:]] | ||
**[[/DRIE-Pegasus/Pegasus-1| DRIE-Pegasus 1 (Si etching on 4" wafers)]] | |||
**[[/DRIE-Pegasus/Pegasus-2| DRIE-Pegasus 2 (Dedicated for research applications)]] | |||
**[[/DRIE-Pegasus/Pegasus-3| DRIE-Pegasus 3 (Si etching on 150 mm wafers)]] | |||
**[[/DRIE-Pegasus/Pegasus-4| DRIE-Pegasus 4 (Etching of silicon based dielectrics on 150 mm wafers)]] | |||
*[[/ICP Metal Etcher|ICP Metal Etch]] | *[[/ICP Metal Etcher|ICP Metal Etch]] | ||
*[[/III-V ICP|III-V ICP]] | |||
*[[/III-V RIE|III-V RIE - Plassys]] | |||
*[[/IBE⁄IBSD Ionfab 300|IBE/IBSD Ionfab 300]] | *[[/IBE⁄IBSD Ionfab 300|IBE/IBSD Ionfab 300]] | ||
|style="background: #DCDCDC"| | |style="background: #DCDCDC"| | ||
*[[/Overview of chemicals|Overview of Chemicals]] | |||
*[[/Wet Silicon Nitride Etch|Wet Silicon Nitride Etch]] | *[[/Wet Silicon Nitride Etch|Wet Silicon Nitride Etch]] | ||
*[[/Wet Silicon Oxide Etch (BHF)|Wet Silicon Oxide Etch (BHF)]] | *[[/Wet Silicon Oxide Etch (BHF)|Wet Silicon Oxide Etch (BHF)]] |
Latest revision as of 13:54, 6 February 2023
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Unless otherwise stated, this page is written by DTU Nanolab internal
Wet etch or dry etch
Etching at Nanolab Fabrication can be done either with wet chemistry or in dry etch equipment. In general wet chemistry etches isotropically in most materials were as dry etch techniques can be optimized to transfer a given mask pattern with vertical sidewalls (anisotropically) to a given substrate.
Advantages of wet chemistry over dry etch techniques are:
- An often high etch rate difference of different materials giving raise to a high selectivity of the material to be etched compared to underlaying layers or mask materials.
- Time saving: You can often etch 25 wafers at a time in wet chemistry where as dry etch equipment can only handle one wafer at a time.
- Easy to start up new etch solutions.
Advantages of dry etch over wet chemistry:
- Anisotropic etch can be done.
- The etch does not attack the backside of the sample.
Dry etch Tool Package Training
Choose material to be etched
Dielectrica | Semicondutors | Metals | Alloys | Polymers |
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Choose Method/Equipment for the Etch
A Dry Etch Equipment | A Wet Etch |
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