Processing methods for forming iridium-containing films at low temperatures are described. The methods comprise exposing a substrate to iridium hexafluoride and a reactant to form iridium metal or iridium silicide films. Methods for enhancing selectivity and tuning the silicon content of some films are also described.

An annealing system is provided that includes a chamber body that defines a chamber, a support to hold a workpiece and a robot to insert the workpiece into the chamber. The annealing system also includes a first gas supply to provide a hydrogen gas, a pressure source coupled to the chamber to raise a pressure in the chamber to at least 5 atmospheres, and a controller configured to cause the robot to transport a workpiece having a metal film thereon into the chamber, where the metal film contains fluorine on a surface or embedded within the metal film, to cause the first gas supply to supply the hydrogen gas to the chamber and form atomic hydrogen therein, and to cause the pressure source to raise a pressure in the chamber to at least 5 atmospheres while the workpiece is held on the support in the chamber.

An annealing system is provided that includes a chamber body that defines a chamber, a support to hold a workpiece and a robot to insert the workpiece into the chamber. The annealing system also includes a first gas supply to provide a hydrogen gas, a pressure source coupled to the chamber to raise a pressure in the chamber to at least 5 atmospheres, and a controller configured to cause the robot to transport a workpiece having a metal film thereon into the chamber, where the metal film contains fluorine on a surface or embedded within the metal film, to cause the first gas supply to supply the hydrogen gas to the chamber and form atomic hydrogen therein, and to cause the pressure source to raise a pressure in the chamber to at least 5 atmospheres while the workpiece is held on the support in the chamber.

Provided is a molybdenum oxychloride characterized in having a purity of 99.9995 wt % or higher. Additionally provided is a manufacturing method of a molybdenum oxychloride including the steps of reacting MoO.sub.3 and Cl.sub.2 and synthesizing the molybdenum oxychloride in a reaction chamber, and cooling the synthesized molybdenum oxychloride gas and precipitating the molybdenum oxychloride in a recovery chamber, wherein an impurity trap is provided between the reaction chamber and the recovery chamber, and impurities are removed with the impurity trap. An object of the present invention is to provide a high-purity molybdenum oxychloride and a manufacturing method therefor.

Disclosed are methods and systems for depositing layers comprising a transition metal and a group 13 element. The layers are formed onto a surface of a substrate. The deposition process may be a cyclical deposition process. Exemplary structures in which the layers may be incorporated include field effect transistors, VNAND cells, metal-insulator-metal (MIM) structures, and DRAM capacitors.

Disclosed are methods and systems for depositing layers comprising a transition metal and a group 13 element. The layers are formed onto a surface of a substrate. The deposition process may be a cyclical deposition process. Exemplary structures in which the layers may be incorporated include field effect transistors, VNAND cells, metal-insulator-metal (MIM) structures, and DRAM capacitors.

There is provided a technique that includes: (a) heating a substrate to 445° C. or more and 505° C. or less; (b) supplying a molybdenum-containing gas to the substrate; and (c) supplying a reducing gas to the substrate, wherein a molybdenum-containing film is formed on the substrate by performing (b) and (c) one or more times after performing (a).

There is provided a technique that includes: (a) heating a substrate to 445° C. or more and 505° C. or less; (b) supplying a molybdenum-containing gas to the substrate; and (c) supplying a reducing gas to the substrate, wherein a molybdenum-containing film is formed on the substrate by performing (b) and (c) one or more times after performing (a).

A method of depositing a metal includes providing a structure a process chamber, and providing a metal fluoride gas and a growth-suppressant gas into the process chamber to deposit the metal over the structure. The metal may comprise a word line or another conductor of a three-dimensional memory device.

A method of depositing a metal includes providing a structure a process chamber, and providing a metal fluoride gas and a growth-suppressant gas into the process chamber to deposit the metal over the structure. The metal may comprise a word line or another conductor of a three-dimensional memory device.