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Overview
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Note: Some literature mentions XeF2 etching of Ti, TiN, Ta, TaN, and TiW. Etching of these materials is temperature dependent, negligible etching occurs below 50 degrees C for any of these materials. Our system does not have heated chuck capability and is not suitable to etch these materials.
General Description
The Xactix Xenon Difluroide E1 is an isotropic etch system, frequently used for MEMS applications. XeF2 etching shows extremely high selectivity of silicon to silicon dioxide, photoresist, silicon nitride, and aluminum. At room temperature and atmospheric pressure Xenon Difluroide (XeF2) is a white solid material. It sublimates directly into the required vapor-phase etchant, not requiring plasma or other activation, under vacuum at room temperature and about 4 Torr pressure. XeF2 etch is a dry, isotropic, etch desirable for many MEMS release applications. Not needing plasma activation minimizes damage to other materials on the wafer and offers broad flexibility in process design. The XeF2-Si reaction is exothermic and the process engineer should be mindful of potential thermal issues.
For silicon, the etch proceeds as:
2XeF2 + Si => 2Xe + SiF4
Commonly Etched Materials | |||
Material | Selectivity to Si | ||
Si | 1:1 | ||
Mo | 2:1 | ||
Ge | Same or Faster than Si | ||
SiGe | Same or Faster than Si | ||
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Specifications
Etch rates: Highly dependent on sample size, from ~10 μm/min for small samples to ~0.2 μm/min for whole 6" wafers.
Selectivity:
1000:1 (Thermal/Low Temperature SiO2:Si)
>1000:1 Si3N4:Si
Low attack (depending on conditions) for Gold, Copper, and Si
Nonreactive with:
Al, Ni, Cr, Pt, Ga
PZT, MgO, ZnO, AlN, GaAs,
Photoresists, PDMS, C4F8, Silica Glass, PVC dicing tape, PP, PEN, PET, ETFE, and Acrylic
Available in either pulsed or continuous flow
Technology Overview
XeF2 exists as solid crystals, and sublimates to form a vapor-phase etchant. The process is a dry, vacuum based process that proceeds spontaneously, and thus does not rely on a plasma or other chemical activation. It proceeds as an isotropic etch for silicon, molybdenus, and germanium. The XeF2 etching rate does not depend on crystal plane, or silicon dopant content. As the XeF2-Si reaction is exothermic, a delay step may be added to cool the wafer between etch cycles and minimize any thermal issues.Commonly Used Low or Non Reacting Materials | ||
Material | Selectivity to Si | |
Thermal SiO2 | 1000:1 | |
Low Temperature SiO2 | 1000:1 | |
Si3N4 | >1000:1 | |
Gold | Low Amount of Attack Under Certain Conditions | |
Copper | Low Amount of Attack Under Certain Conditions | |
SiC | Low Amount of Attack Under Certain Conditions | |
Non Reactive Materials | ||
Metals | Compounds | |
Al | PZT | |
Ni | MgO | |
Cr | ZnO | |
Pt | AlN | |
Ga | GaAs | |
Polymers and Organics | ||
Photo Resists | PDMS | |
C4F8 | Silica Glass | |
Dicing Tape | PP | |
PEN | PET | |
ETFE | Acrylic |
Sample Requirements and Preparation
The Xactix E1 Xenon Difluoride etcher will accept small clean and dry pieces up to full 100 mm (4 inch) diameter wafers. Small pieces can be placed directly on the sample surface with no mounting required.
XeF2 etching is a chemical diffusion process, as such, the etch rate and etch profiles are dependent on loading effects. Any silicon that you do not intend to etch should be covered to prevent consumption of XeF2 resulting in etch process variation. A test run with the exact same sample size and pattern is required to determine specific etch rate for a process. The following effects have been observed:
- Etch rate differences can be observed between the center and the edge for wafers with large etched areas.
- Exposed silicon at the edge of the wafer can consume XeF2 and lead to more etch rate non-uniformity. This can be from photoresist edge bead removal or simply form loss of photoresist on the vertical edge of the wafer.
Patterns with differences in feature sizes can show different etch rates depending on the feature size or to the proximity of two adjacent features.
Note |
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The surface preparation prior to etch is important in achieving consistent and repeatable etch results.
The XeF2-Si reaction is exothermic and will heat the wafer. A delay step can be used to cool the wafer between etch cycles to mitigate any observed thermal issues. |
Standard Operating Procedure
Warning |
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XeF2, SiF4 and any other F-containing species present in this etching process are both toxic and corrosive. Inhaling them can result in chemical burns to respiratory tracts. |
Etching a Sample | |||||||||
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Activating the System
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Logging onto the System
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Entering the Etch Menu Screen
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Load an Existing Recipe
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Editing Process Parameters
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Saving a Recipe
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Run a Recipe
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Stopping an Etch Before Recipe Completes
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Changing the Number of Cycles During an Etch
Example: In the image to the right, An extra 125 cycles have been added to the etch by clicking the right most arrow (ones) five times, the next right most arrow (tens) twice, and the 2nd from left most arrow (hundreds) once. | |||||||||
Viewing Detailed Etch Information
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Unloading a Sample
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Finishing Your Session
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Questions & Troubleshooting
How long should my cycle time be?
Cycle time should be set to allow all of the XeF2 vapor to react with exposed silicon. For large areas of exposed silicon, XeF2 will quickly react with the exposed areas, and the cycle time may be reduced. For a smaller chip, cycle times will need to somewhat longer to allow all of the XeF2 to react fully.
In order to tell that all XeF2 has reacted, the chamber pressure may be monitored. The etching reaction proceeds as 2XeF2 + Si -> SiF4 + 2Xe, meaning 2 moles of reactant gas will be present at the beginning of the etch step, and 3 will be present after the etch has completed. Therefore, the pressure in the chamber will increase somewhat while the etch is proceeding, and will level off after the etch has completed.
The etch rate on my sample seems nonuniform?
Uniformity is an inherent issue with XeF2 etching. There is a limited amount of etchant released in each cycle, and the local etch rate will depend on the amount of exposed silicon and available XeF2 vapor. In general, large exposed areas of silicon will show the worst uniformity, and regular patterns of small holes (with the rest of the wafer covered) will show the best uniformity. Minimizing unneeded exposed silicon will allow for faster and more uniform etching of the pattern.
Process Library
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Table of Content Zone | ||||||||
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Overview
Page Properties | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
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|
Note: Some literature mentions XeF2 etching of Ti, TiN, Ta, TaN, and TiW. Etching of these materials is temperature dependent, negligible etching occurs below 50 degrees C for any of these materials. Our system does not have heated chuck capability and is not suitable to etch these materials.
General Description
At room temperature and atmospheric pressure Xenon Difluroide (XeF2) is a white solid material. It sublimates directly into the required vapor-phase etchant, not requiring plasma or other activation, under vacuum at room temperature and about 4 Torr pressure. XeF2 etch is a dry, isotropic, etch desirable for many MEMS release applications. Not needing plasma activation minimizes damage to other materials on the wafer and offers broad flexibility in process design. The XeF2-Si reaction is exothermic and the process engineer should be mindful of potential thermal issues.
For silicon, the etch proceeds as:
2XeF2 + Si => 2Xe + SiF4
Commonly Etched Materials | |||
Material | Selectivity to Si | ||
Si | 1:1 | ||
Mo | 2:1 | ||
Ge | Same or Faster than Si | ||
SiGe | Same or Faster than Si | ||
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Commonly Used Low or Non Reacting Materials | |||
Material | Selectivity to Si | ||
Thermal SiO2 | 1000:1 | ||
Low Temperature SiO2 | 1000:1 | ||
Si3N4 | >1000:1 | ||
Gold | Low Amount of Attack Under Certain Conditions | ||
Copper | Low Amount of Attack Under Certain Conditions | ||
SiC | Low Amount of Attack Under Certain Conditions | ||
Non Reactive Materials | |||
Metals | Compounds | ||
Al | PZT | ||
Ni | MgO | ||
Cr | ZnO | ||
Pt | AlN | ||
Ga | GaAs | ||
Polymers and Organics | |||
Photo Resists | PDMS | ||
C4F8 | Silica Glass | ||
Dicing Tape | PP | ||
PEN | PET | ||
ETFE | Acrylic |
Sample Requirements and Preparation
For well controlled silicon etching, a BOE dip should be done directly before XeF2 etching. XeF2 will etch SiO2 very slowly, so removing the native oxide layer will allow for a more uniform etch.
Whether the native oxide has been removed or not, all samples should be dehydrated directly prior to placement in The Xactix E1 Xenon Difluoride etcher will accept small clean and dry pieces up to full 100 mm (4 inch) diameter wafers. Small pieces can be placed directly on the sample surface with no mounting required.
XeF2 etching is a chemical diffusion process, as such, the etch rate and etch profiles are dependent on loading effects. Any silicon that you do not intend to etch should be covered to prevent consumption of XeF2 resulting in etch process variation. A test run with the exact same sample size and pattern is required to determine specific etch rate for a process. The following effects have been observed:
- Etch rate differences can be observed between the center and the edge for wafers with large etched areas.
- Exposed silicon at the edge of the wafer can consume XeF2 and lead to more etch rate non-uniformity. This can be from photoresist edge bead removal or simply form loss of photoresist on the vertical edge of the wafer.
Patterns with differences in feature sizes can show different etch rates depending on the feature size or to the proximity of two adjacent features.
Note |
---|
The surface preparation prior to etch is important in achieving consistent and repeatable etch results.
|
|
|
Note: XeF2 will also etch Titanium, Titanium Nitride, Tantalum, Tantalum Nitride, and Tungsten at etch rates from 0-30 nm/min, strongly depending on the local temperature.
Standard Operating Procedure
The XeF2-Si reaction is exothermic and will heat the wafer. A delay step can be used to cool the wafer between etch cycles to mitigate any observed thermal issues. |
Standard Operating Procedure
Warning |
---|
XeF2, SiF4 and any other F-containing species present in this etching process are both toxic and corrosive. Inhaling them can result in chemical burns to respiratory tracts. |
Etching a Sample | |||||||||
---|---|---|---|---|---|---|---|---|---|
Activating the System
| |||||||||
Logging onto the System
| |||||||||
| |||||||||
Entering the Etch Menu Screen
| |||||||||
Load an Existing Recipe
| |||||||||
Editing Process Parameters
| |||||||||
Saving a Recipe
| |||||||||
Run a Recipe
| |||||||||
Stopping an Etch Before Recipe Completes
| |||||||||
Changing the Number of Cycles During an Etch
Example: In the image to the right, An extra 125 cycles have been added to the etch by clicking the right most arrow (ones) five times, the next right most arrow (tens) twice, and the 2nd from left most arrow (hundreds) once. | |||||||||
Viewing Detailed Etch Information
| |||||||||
Unloading a Sample
| |||||||||
Finishing Your Session
|
Questions & Troubleshooting
How long should my cycle time be?
Cycle time should be set to allow all of the XeF2 vapor to react with exposed silicon. For large areas of exposed silicon, XeF2 will quickly react with the exposed areas, and the cycle time may be reduced. For a smaller chip, cycle times will need to somewhat longer to allow all of the XeF2 to react fully.
In order to tell that all XeF2 has reacted, the chamber pressure may be monitored. The etching reaction proceeds as 2XeF2 + Si -> SiF4 + 2Xe, meaning 2 moles of reactant gas will be present at the beginning of the etch step, and 3 will be present after the etch has completed. Therefore, the pressure in the chamber will increase somewhat while the etch is proceeding, and will level off after the etch has completed.
The etch rate on my sample seems nonuniform?
Uniformity is an inherent issue with XeF2 etching. There is a limited amount of etchant released in each cycle, and the local etch rate will depend on the amount of exposed silicon and available XeF2 vapor. In general, large exposed areas of silicon will show the worst uniformity, and regular patterns of small holes (with the rest of the wafer covered) will show the best uniformity. Minimizing unneeded exposed silicon will allow for faster and more uniform etching of the pattern.