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The ALD window for depostion of aluminium dioxide (Al₂O₃) ranges from 150 ^oC to 350 ^oC. XPS measurements shows that at temperatures below 150 ^oC the Al₂O₃ layer will be contaminated by unreacted TMA molecules, and at temperatures above 350 ^oC the TMA decomposes.

All results shown on this page have been obtained using the "AL2O3" recipe on new Si(100) wafers with native oxide:

Al₂O₃ standard recipe

Recipe: AL2O3

Maximum thickness: 100 nm

Temperature: 100 ^oC - 350 ^oC

	TMA	H₂O
Nitrogen flow	150 sccm	200 sccm
Pulse time	0.1 s	0.1 s
Purge time	3.0 s	4.0 s

Al₂O₃ deposition rates

The deposition rate for Al₂O₃ depends on the temperature, see the ALD-window graph below. The uniformity, thickness, refractive index has been obtained using Ellipsometer VASE.

ALD-window for Al2O3 deposition.
Typical uniformity profile across 100mm Si wafer based on 49 mesurement points.

In the graphs below the Al₂O₃ thickness as function of number of cycles for deposition temperatures between 100 ^oC and 350 ^oC can be seen. From the equations the number of cycles required for a certain thickess can be calculated.

Aluminium oxide thickness as function of number of cycles
Temperature 100 ^oC.
Temperature 150 ^oC.
Temperature 200 ^oC.

Aluminium oxide thickness as function of number of cycles
Temperature 250 ^oC.
Temperature 300 ^oC.
Temperature 350 ^oC.

Evgeniy Shkondin, DTU Danchip, 2014-2016.

Al₂O₃ standard recipe characterization across 100 mm Si <100> wafer

Al₂O₃ deposition at 100 ^oC and 150 ^oC

Deposition conditions at 100 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
150	14.11	2.18	0.225	1.56
300	25.94	0.68	0.14	1.59
500	41.35	1.87	0.60	1.59
800	65.05	2.28	1.13	1.59
1088	87.25	2.15	1.35	1.60

Deposition conditions at 150 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
150	15.38	1.72	0.18	1.61
300	28.67	1.73	0.36	1.62
500	46.93	1.75	0.57	1.62
800	73.46	1.75	0.92	1.63
1088	99.50	1.74	1.20	1.63

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Al₂O₃ deposition at 200 ^oC and 250 ^oC

Deposition conditions at 200 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
150	16.46	2.92	0.33	1.62
300	31.09	1.53	0.34	1.63
500	51.20	1.10	0.39	1.64
800	79.66	1.59	0.88	1.64
1088	107.69	1.41	1.04	1.64

Deposition conditions at 250 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
150	16.41	0.83	0.10	1.63
300	30.81	1.13	0.24	1.64
500	50.48	1.10	0.40	1.64
800	79.84	1.11	0.60	1.65
1088	108.03	1.11	0.61	1.65

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Al₂O₃ deposition at 300 ^oC and 350 ^oC

Deposition conditions at 300 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
150	15.59	2.11	0.24	1.63
300	29.00	0.79	0.17	1.65
500	47.86	1.71	0.26	1.64
800	75.04	0.90	0.55	1.65
1088	101.76	0.75	0.62	1.65

Deposition conditions at 350 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
150	13.88	0.69	0.06	1.67
300	26.70	0.62	0.12	1.64
500	43.70	0.42	0.15	1.64
800	68.77	0.65	0.37	1.65
1088	92.88	0.70	0.48	1.66

Evgeniy Shkondin, DTU Danchip, 2014-2016.

Al₂O₃ XPS investigation for elemental trace analysis

XPS profile for Al₂O₃ has been obtained using XPS-ThermoScientific.

Survey scan of Al₂O₃.
C 1s scan of Al₂O₃ film deposited at 100^oC.
C 1s scan of Al₂O₃ film deposited between 150^oC - 350^oC.

Evgeniy Shkondin, DTU Danchip, 2014-2016.

Al₂O₃ recipe for deposition on high aspect ratio structures

Recipe: AL2O3T

Maximum thickness: 100 nm

Temperature: 100 ^oC - 350 ^oC

	TMA	TMA	H₂O	H₂O
Nitrogen flow	150 sccm	150 sccm	200 sccm	200 sccm
Pulse time	0.1 s	0.1 s	0.1 s	0.1 s
Purge time	0.5 s	20.0 s	0.5 s	20.0 s

The recipe is good for deposition on very high aspect ratio structures (with aspect ratio more then 1:20) such as deep trenches, pillars, pores etc. However, in most cases, including deposition on black silicon or other lower aspect ratio structures, the standard Al2O3 recipe is sufficient and should be used instead! A2O3T can also be used for deposition on polymers at low temperatures (80-120 ^oC). Deposition rate is approximately the same as for standard Al2O3 recipe.

Some some SEM images of Al₂O₃ deposited on a Si trenches at 150 ^oC temperature and 1000 cycles. Trenches prepered using DRIE-Pegasus. Research results based on this recipe can be found here: LINK

Al2O3 coatings on Si trenches
Temperature 150 ^oC, 1000 cycles.
Temperature 150 ^oC, 1000 cycles.
Temperature 150 ^oC, 1000 cycles.

Temperature 150 ^oC, 1000 cycles.
Temperature 150 ^oC, 1000 cycles.
Temperature 150 ^oC, 1000 cycles.

Evgeniy Shkondin, DTU Danchip, 2014-2016.

Al₂O₃ ozone recipe

Recipe: AL2O3 O3

Maximum thickness: 100 nm

Temperature: 300 ^oC - 350 ^oC

	TMA	O₃O
Nitrogen flow	150 sccm	200 sccm
Pulse time	0.1 s	0.2 s
Purge time	3.0 s	4.0 s

Oxidizing agent in this process is ozone instead of water. The advantage of using ozone is minimization of hydrogen impurities in the deposited film.

Al₂O₃ O₃ process deposition rates

The deposition of Al₂O₃ using O₃ can be done in the range between 300-350 ^oC. It is not recomanded to put temperature below 300^oC since it leads to very poor uniformity, which is somewhat lower compared with water process even at 300^oC (data obtained using Ellipsometer VASE). This recipe is not sutable for deposition on high aspect ratio structures (use recipe Al2O3 or Al2O3T instead).

Thickness distriburion across 100mm Si wafer (300^oC).
Thickness distriburion across 100mm Si wafer (350^oC)

In the graphs below the Al₂O₃ thickness as function of number of cycles for deposition temperatures between 300 ^oC and 350 ^oC can be seen. From the equations the number of cycles required for a certain thickess can be calculated.

Aluminium oxide thickness as function of number of cycles
Temperature 300 ^oC.
Temperature 350 ^oC.

Evgeniy Shkondin, DTU Danchip, 2014-2016.

Al₂O₃ O₃ recipe characterization across 100 mm Si <100> wafer

Al₂O₃ deposition at 100 ^oC and 150 ^oC

Deposition conditions at 300 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
250	18.47	4.04	2.93	1.64
500	40.28	1.49	2.25	1.64
750	54.63	3.50	7.86	1.64
1000	77.86	1.83	5.48	1.64
1220	94.12	2.28	7.32	1.65

Deposition conditions at 350 ^oC
Number of cycles	Thickness (nm)	Uniformity across 100mm Si substrate (%)	Standard deviation error	Refractive index @ 632.8 nm
250	19.58	2.23	0.35	1.66
500	37.94	2.09	0.60	1.65
750	56.52	1.85	0.81	1.65
1000	75.91	1.49	0.59	1.65

Evgeniy Shkondin, DTU Danchip, 2014-2016.

Al2O3 standard recipe

Al2O3 deposition rates

Al2O3 standard recipe characterization across 100 mm Si <100> wafer

Al2O3 XPS investigation for elemental trace analysis

Al2O3 recipe for deposition on high aspect ratio structures

Al2O3 ozone recipe

Al2O3 O3 process deposition rates

Al2O3 O3 recipe characterization across 100 mm Si <100> wafer

Al₂O₃ standard recipe

Al₂O₃ deposition rates

Al₂O₃ standard recipe characterization across 100 mm Si <100> wafer

Al₂O₃ XPS investigation for elemental trace analysis

Al₂O₃ recipe for deposition on high aspect ratio structures

Al₂O₃ ozone recipe

Al₂O₃ O₃ process deposition rates

Al₂O₃ O₃ recipe characterization across 100 mm Si <100> wafer