Patent ID: 7637268

Claim:
A film formation method for a semiconductor process for forming a film on a plurality of target substrates each having a target surface consisting essentially of silicon with a natural oxide film formed thereon, in a reaction chamber consisting mainly of a material selected from the group consisting of quartz and silicon carbide, the method comprising: supplying nitrogen gas into the reaction chamber and setting an interior of the reaction chamber at a load temperature of from a room temperature of 300° C., which is lower than a threshold temperature at which the natural oxide film starts being stabilized, by heating the reaction chamber by a heater surrounding the reaction chamber and made of a resistive heating body; loading a holder that supports the target substrates at predetermined intervals in a vertical direction into the reaction chamber set at the load temperature; stabilizing the interior of the reaction chamber that accommodates the holder and the target substrates at an etching pressure of 133 Pa to 26.6 kPa (1 to 200 Torr) and an etching temperature of 300 to 500° C., which is lower than the threshold temperature, by supplying only nitrogen gas into the reaction chamber while exhausting gas from inside the reaction chamber and heating the reaction chamber by the heater; removing the natural oxide film on the target surface of the target substrates by etching in the reaction chamber set at the etching pressure and the etching temperature, while supplying an etching gas, which consists of chlorine gas and nitrogen gas with a flow rate of 1:1 to 1:12 between the chlorine gas and the nitrogen gas and thus contains no fluorine, into the reaction chamber, and activating chlorine in the etching gas by the heater; purging the interior of the reaction chamber by performing a cycle purge arranged to repeat a plurality of times an operation of exhausting gas from inside the reaction chamber and an operation of supplying nitrogen gas into the reaction chamber; stabilizing the interior of the reaction chamber that accommodates the holder and the target substrates at a film formation pressure and a film formation temperature by supplying nitrogen gas into the reaction chamber while exhausting gas from inside the reaction chamber and heating the reaction chamber by the heater; and forming a thin film on the target surface of the target substrates by CVD inside the reaction chamber set at the film formation pressure and the film formation temperature, while supplying a film formation gas into the reaction chamber.