Atomic Layer Deposition (Oxford FlexAL)

Oxford FlexAL Chamber #1: Metals

Maximum 30nm deposition thickness! (ask Tool Supervisor if needed.)

Note that Plasma-based (indicated by asterisk eg. N* or O*) recipes run nearly 2x faster than H2O/thermal recipes due to faster reaction rate, thus shorter cycling.

Pt deposition (ALD CHAMBER 1)

Recipe name: Ch1_TMCpPt+O3-300C
- Pt deposition rate ~ 0.5-0.6 A/cyc
- Conductivity data: (to be added)
- recipe utilizes the ozone generator which must be first set to the following conditions:
  - O₂ flow = 250sccm
  - O₃ concentration = 15 wt%
- 300°C deposition
Recipe name: CH1-TMCpPt+250W/O*-300C
- Uses Oxygen plasma
- 300°C deposition

Ru deposition (ALD CHAMBER 1)

Recipe name: Ch1_Ex03Ru[HPbub]+O2-300C
Ru deposition rate ~ 0.6-0.7A/cyc.
Conductivity data: (to be added)
300°C, O2 gas reaction

ZnO Deposition (ALD Chamber 1)

Conductive film.

Recipe name: Ch1_DEZ+H2O-200C
ZnO deposition rate ≈ 1.6 A/cycle
resistivity ≈ TBA
200°C Deposition, Water reaction

ZnO:Al deposition (ALD CHAMBER 1)

Al-Doped ZnO for variable resisitivity.

Recipe name: Ch1_DEZ/TMA+H2O-200C
- The recipe has TWO loops. The Outer loop determines final thickness. The Inner loop determines how much AlOx is doped into the film. Note that each full (outer-loop) cycle takes a long time due to this double-loop structure.
Al dose fraction = 5% for lowest resistivity
ZnO deposition rate ~ 1.7A/cyc
resistivity ~ 4200uOhm.cm (390A film)

Oxford FlexAL Chamber #3: Dielectrics

Maximum 30nm deposition thickness! (ask Tool Supervisor if needed.)

Al₂O₃ deposition (ALD CHAMBER 3)

Recipe name: CH3-TMA+H2O-300C
- Al₂O₃ deposition rate ~ 1A/cyc
- 300°C Dep., Water reaction
- This is considered the standard recipe for ALD
- Temperature variations: 300°C (std.), 250°C, 200°C, 150°C, 120°C
Recipe Name: CH3-TMA+250W/O*-300C
- Similar deposition rate
- Oxygen Plasma reaction instead of H2O
- Lower carbon content, faster depsition.
- Temperature variations: 300°C (std.), 200°C, 120°C
Recipe Name: CH3-TMA+O3/200mT-300C
- Similar dep. rate
- Ozone (O₃) reactant, experimental

AlN deposition (ALD CHAMBER 3)

Recipe name: CH3-TMA+100W/N*-300C
- AlN deposition rate ~ t.b.d.
- Recipe utilizes a N* plasma @ 100W, 20mTorr pressure.
- Temperature Variations: 300°C Dep. (std.), 200*C, 120°C
- Power variations: 300W, 400W (at 300°C)
- Nitrogen/Hydrogen variations: "30N*/30H*" at 200*C and 300°C

HfO₂ deposition (ALD CHAMBER 3)

Recipe name: CH3-TEMAH+H2O-300C
- HfO₂ deposition rate ~ 0.9-1.0A/cyc
- Note: deposition shows significant parasitic growth (via CVD channel) if H₂O purge/pump times are not sufficient.
- Temperature variations: 300°C (std.), 250°C, 200°C, 150°C, 120°C
Recipe name: CH3-TEMAH+250W/O*-300C
- Uses Oxygen plasma reactant instead of H₂O
Recipe name: CH3-TEMAH+O3/100mT-300C
- Uses Ozone (O₃) for reactant instead of H₂O

SiO₂ deposition (ALD CHAMBER 3)

Recipe name: CH3-TDMAS+250W/O*-300C
- SiO₂ deposition rate ~ 0.7-0.8A/cyc
- Recipe utilizes an O* plasma @ 250W, 5mTorr pressure, 300°C Temp.
- Temperature variations: 300*C (std.), 250°C, 230°C, 200°C, 150°C, 120°C
Recipe name: CH3-TDMAS+O3/200mT-300C
- Uses Ozone (O₃) for reactant instead of H₂O

ZrO₂ deposition (ALD CHAMBER 3)

Recipe name: CH3-TEMAZ+H2O-300C
- ZrO₂ deposition rate ~ 0.9-1.0A/cyc
- Not directly characterized since results are basically the same as the HfO₂ process above.
- Temperature variations: 300°C (std.), 200°C
Recipe name: CH3-TEMAZ+250W/O*-300C
- Uses Oxygen plasma reactant instead of H₂O
Recipe name: CH3-TEMAZ+O3/100mT-300C
- Uses Ozone (O₃) for reactant instead of H₂O

TiO₂ deposition (ALD CHAMBER 3)

Recipe name: CH3-TDMAT+H2O-300C
- TiO₂ deposition rate ~ 0.6A/cyc
- Note: deposition shows parasitic growth (via CVD channel) if H₂O purge/pump times are not sufficient.
- Temperature variations: 300°C (std.), 200°C, 120*C
Recipe name: CH3-TDMAT+250W/O*-300C
- Uses Oxygen plasma reactant instead of H₂O

TiN deposition (ALD CHAMBER 3)

Recipe name: CH3-TDMAT+400W/12N*/4H*-300C
- TiN deposition rate ~ 0.7A/cyc
- Conductivity data: (to be added)
- Uses Plasma of N2 & H2 gases.
- Temperatures: 300°C (std.), 200°C
Recipe name: CH3-TDMAT+100W/N*-300C
- Uses Plasma of N2 only
- Temperatures: 300°C (std.), 200°C
Recipe name: CH3-TDMAT+100W/NH3*-300C
- Uses Plasma of NH₃ only
- Temperatures: 300°C (std.), 200°C

Atomic Layer Deposition Recipes

Contents

Atomic Layer Deposition (Oxford FlexAL)

Oxford FlexAL Chamber #1: Metals

Pt deposition (ALD CHAMBER 1)

Ru deposition (ALD CHAMBER 1)

ZnO Deposition (ALD Chamber 1)

ZnO:Al deposition (ALD CHAMBER 1)

Oxford FlexAL Chamber #3: Dielectrics

Al₂O₃ deposition (ALD CHAMBER 3)

AlN deposition (ALD CHAMBER 3)

HfO₂ deposition (ALD CHAMBER 3)

SiO₂ deposition (ALD CHAMBER 3)

ZrO₂ deposition (ALD CHAMBER 3)

TiO₂ deposition (ALD CHAMBER 3)

TiN deposition (ALD CHAMBER 3)

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Atomic Layer Deposition Recipes

Atomic Layer Deposition (Oxford FlexAL)

Oxford FlexAL Chamber #1: Metals

Pt deposition (ALD CHAMBER 1)

Ru deposition (ALD CHAMBER 1)

ZnO Deposition (ALD Chamber 1)

ZnO:Al deposition (ALD CHAMBER 1)

Oxford FlexAL Chamber #3: Dielectrics

Al2O3 deposition (ALD CHAMBER 3)

AlN deposition (ALD CHAMBER 3)

HfO2 deposition (ALD CHAMBER 3)

SiO2 deposition (ALD CHAMBER 3)

ZrO2 deposition (ALD CHAMBER 3)

TiO2 deposition (ALD CHAMBER 3)

TiN deposition (ALD CHAMBER 3)

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Al₂O₃ deposition (ALD CHAMBER 3)

HfO₂ deposition (ALD CHAMBER 3)

SiO₂ deposition (ALD CHAMBER 3)

ZrO₂ deposition (ALD CHAMBER 3)

TiO₂ deposition (ALD CHAMBER 3)