Specific Process Knowledge/Thin film deposition/Deposition of Aluminium

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Deposition of Aluminium

Aluminium can be deposited by e-beam evaporation, by sputtering and by thermal evaporation. In the chart below you can compare the different methods on the different deposition equipment.

Sputtering of Aluminium

Aluminium may be sputter deposited in either Wordentec or the Lesker sputter system.

Sputtering of Aluminium of Wordentec

Thermal deposition of Aluminium

In Wordentec Aluminium can be deposited by Thermal deposition

Thermal deposition of Aluminium

	E-beam evaporation (Temescal)	E-beam evaporation (Physimeca)	E-beam evaporation (Wordentec)	Sputter deposition (Wordentec)	Thermal evaporation (Wordentec)	Thermal evaporation (Thermal Evaporator)
General description	E-beam deposition of Aluminium	E-beam deposition of Aluminium	E-beam deposition of Aluminium	Sputter deposition of Aluminium	Aluminum deposition onto unexposed e-beam resist	Aluminum deposition onto unexposed e-beam resist
Pre-clean	Ar ion etch	None	RF Ar clean	RF Ar clean	RF Ar clean	None
Layer thickness	10Å to 1 µm*	10Å to 0.5 µm **	10Å to 1 µm*	10Å to ~0.5µm (very time consuming )	10Å to 0.5 µm** (this uses all Al in the boat)	10Å to 0.5 µm**
Deposition rate	0.5Å/s to 15Å/s	0.5Å/s to 15Å/s	10Å/s to 15Å/s	Depending on process parameters, up to ~2.5 Å/s	~1.5Å/s to 2Å/s	1 Å/s
Batch size	Up to 4x6" or 3x8" wafers smaller pieces	Up to 1x4" wafers smaller pieces	24x2" wafers or 6x4" wafers or 6x6" wafers	24x2" wafers or 6x4" wafers or 6x6" wafers	24x2" wafers or 6x4" wafers or 6x6" wafers	Up to one 8" wafer
Pumping time from wafer load	Approx. 20 min	Approx. 10 min	Approx. 1 hour	Approx. 1 hour	Approx. 1 hour	Approx. 15 min
Allowed substrates	Silicon wafers Quartz wafers Pyrex wafers	Silicon wafers Quartz wafers Pyrex wafers	Silicon wafers Quartz wafers Pyrex wafers	Silicon wafers Quartz wafers Pyrex wafers	Silicon wafers Quartz wafers Pyrex wafers	Silicon wafers Quartz wafers Pyrex wafers
Allowed materials	Silicon oxide Silicon (oxy)nitride Photoresist PMMA Mylar SU-8 Metals	Silicon oxide Silicon (oxy)nitride Photoresist PMMA Mylar SU-8 Metals	Silicon oxide Silicon (oxy)nitride Photoresist PMMA Mylar SU-8 Metals	Silicon oxide Silicon (oxy)nitride Photoresist PMMA Mylar SU-8 Metals	Silicon oxide Silicon (oxy)nitride Photoresist PMMA Mylar SU-8 Metals	Silicon oxide Silicon (oxy)nitride Photoresist PMMA Mylar SU-8 Metals
Comment	* Thickness above 600 nm: ask for permission It is possible to tilt the substrate	** Thickness above 200 nm: ask for permission	* Thickness above 600 nm: ask for permission		**Thickness above 200 nm: ask for permission	**Thickness above 200 nm: ask for permission

* For thicknesses above 600 nm please get permission from ThinFilm group by writing to metal@danchip.dtu.dk

** For thicknesses above 200 nm please get permission from ThinFilm group by writing to metal@danchip.dtu.dk

Aluminium deposition on ZEP520A for lift-off

This is a small study of which aluminium deposition that is best for aluminium lift-off on ZEP520A resist and a very thin layer of aluminium (~20nm).

The conclusion was that e-beam evaporation of aluminium in the Alcatel at 15Å/s gave the best result.

See details of the study here.

Aluminium deposition on AZ5214 for lift-off

Negative photolithographi process is recomended.

Positive photolithographi process from 1,5µ is possible especially for thin layers of metal.

The more pattern the easyer lift.

It was tried(jan09) to lift 2,5µ Al on 4,2µ negative resist on top of 11µ Apox SiO2 in acetone sonic-bath. This process was done in steps evaporating 5000Å a time with 5min pause and pressure down to at least 2E-6.

Comparison of roughness and other surface characteristics for different methods of Aluminium deposition

Studies by AFM was performed to examine differences in characteristics of the Al films, deposited with the differnt methods (sputter, e-beam, thermal). See details of the study here.