Abstract: A process for inhibiting the passage of dopant from a gate electrode into a thin gate oxide comprises nitridation of the upper surface of the thin gate oxide, prior to formation of the gate electrode over the gate oxide, to thereby form a barrier of nitrogen atoms in the upper surface region of the gate oxide adjacent the interface between the gate oxide and the gate electrode to inhibit passage of dopant atoms from the gate electrode into the thin gate oxide during annealing of the structure. In one embodiment, a selective portion of silicon oxide on a silicon substrate may be etched to thin the oxide to the desired thickness using a nitrogen plasma with a bias applied to the silicon substrate. Nitridation of the surface of the etched silicon oxide is then carried out in the same apparatus by removing the bias from the silicon substrate.

Abstract: A method for purging and passivating a vacuum chamber suitable for use in the production of integrated circuit structures on semiconductor wafers. The method includes flowing a heated, non-reactive gas, such as argon gas, through the chamber for purposes of decontaminating the chamber and subsequently filling the chamber with a selected gas such as nitrogen to passivate the chamber for storage or shipping purposes.

Abstract: A process is described for coating a substrate surface in a heated fluidized bed reactor which comprises flowing one or more coating source materials in a condensed state into a fluidized bed reactor which is maintained at a temperature which is higher than the decomposition and/or reaction temperature of the one or more coating source materials but lower than the vaporization temperature of the coating composition formed in the reactor, whereby the coating composition formed by such decomposition and/or reaction will form a coating film on the substrate surface.