Hafnium oxide deposition (CVD)
The equipment required for this process are a CVD and a plasma cleaner for removing impurities after the Hafnium oxide deposition
Since HfCl4 is a solid salt at room temperature, we need to first create a liquid precursor, and use direct liquid injection for using it in our CVD.
The process is based on a Japanese paper and requires a complex precursor.
The synthesis of the Hf precursor TDEAH (Hf(NEt2)4) is so complex, that it needs its own page.
Precursor injection
Introduce TDEAH gas into the deposition chamber using a bubbling system, use N2 as the carrier gas.
To prevent liquefaction of the source before it enters the deposition chamber, maintain the line from the bubbler to the chamber at a temperature of 85°C.
Heat the bubbling system chamber to 80°C.
The flow rate into the CVD chamber should be 40 sccm.
Oxidizer injection
Have O2 in N2 in a ration 1:99 and feed it into the chamber through a separate nozzle, because otherwise the O2 decomposes the TDEAH before it can reach the substrate.
The flow rate can be varied between 0 and 20 sccm, for obvious reasons you want it higher than zero, because without oxygen you won't get any oxide.
Substrate temperature
Set a temperature between 300°C and 450°C, in order to control deposition speed.
CVD chamber pressure
Set the pressure within the CVD chamber to 1 torr