Patent ID: 7892358
Filing Date: 2011-02-22
Classification: C23C

Abstract:
1. A deposition system for forming a metal layer on a substrate, comprising: a process chamber having a substrate holder configured to support said substrate and heat said substrate, and a pumping system configured to evacuate said process chamber; a metal precursor vaporization system configured to vaporize a metal carbonyl precursor to form a metal carbonyl precursor vapor; a vapor distribution system coupled to or within said process chamber and configured to introduce said metal carbonyl precursor vapor to a process space above said substrate and a dilution gas to said process space above said substrate, said process space comprising a first process region above a substantially peripheral portion of said substrate and a second process region above a substantially central portion of said substrate, wherein said vapor distribution system is configured to adjust a distribution of the partial pressure of said dilution gas across said substrate between said first process region and said second process region; a dilution gas source coupled to said vapor distribution system and configured to supply said dilution gas to at least one of said first process region or said second process region; a vapor delivery system having a first end coupled to an outlet of said metal precursor vaporization system and a second end coupled to an opening of said vapor distribution system; and a gas supply system coupled to at least one of said metal precursor vaporization system or said vapor delivery system, or both, and configured to supply a CO gas to transport said metal carbonyl precursor vapor in said CO gas to said inlet of said vapor distribution system, wherein said vapor distribution system comprises: a housing having said opening formed therein; a vapor distribution plate coupled to said housing and configured to face said substrate; an intermediate vapor distribution plate positioned within said housing between said opening and said vapor distribution plate, wherein the combination of said housing, said intermediate vapor distribution plate and said vapor distribution plate form a plenum between said opening and said intermediate vapor distribution plate and an intermediate plenum between said intermediate vapor distribution plate and said vapor distribution plate, wherein said vapor distribution system is configured to receive said CO gas and said metal precursor vapor into said plenum through said opening formed in said housing, wherein said intermediate vapor distribution plate includes a first array of openings formed therein and configured to distribute said CO gas and said metal precursor vapor from said plenum to said intermediate plenum, wherein said dilution gas source is coupled to said intermediate plenum downstream of said plenum and is configured to supply said dilution gas to said intermediate plenum for diluting said CO gas and said metal precursor vapor that passes through said first array of openings into said intermediate plenum, and wherein said vapor distribution plate includes a second array of openings formed therein and configured to re-distribute said CO gas and said metal precursor vapor with said dilution gas from said intermediate plenum to said process space above said substrate; and a partition positioned within said intermediate plenum and configured to separate said intermediate plenum into a peripheral plenum region and a central plenum region, wherein said vapor distribution system is configured to receive said dilution gas into said peripheral plenum region, whereby said CO gas and said metal precursor vapor with said dilution gas are re-distributed to a substantially peripheral region of said process space through said openings in said vapor distribution plate.