Method for reduced gate aspect ration to improve gap-fill after spacer etch

Abstract

The present invention provides a method for reducing the gate aspect ratio of a flash memory device. The method includes forming a tunnel oxide layer on a substrate; forming a polysilicon layer on the tunnel oxide layer; forming an insulating layer on the polysilicon layer; forming a control gate layer on the polysilicon layer; etching at least the tunnel oxide layer, the insulating layer, and the control gate layer to form at least two stack structures; forming a plurality of spacers at sides of the at least two stack structures; and filling at least one gap between the at least two stack structures with an oxide, where the control gate layer provides a gate aspect ratio which allows for a maximum step coverage by the oxide. In a preferred embodiment, the method uses nickel silicide instead of the conventional tungsten silicide in the control gate layers of the cells of the device. Nickel silicide has higher conductivity than conventional silicides, thus a thinner layer of nickel silicide may be used without sacrificing performance. Nickel silicide also has a lower barrier height for holes, thus maintaining a low contact resistance. With a thinner nickel silicide layer, the gate aspect ratio of the cells are lowered, allowing for a maximum step coverage by the gap-filling oxide. The reliability of the device is thus improved.