摘要:
A method for forming a gate pattern of a semiconductor device can include isotropically etching a gate insulating layer located between a gate conductive layer pattern and a substrate to recess an exposed side wall of the gate insulating layer pattern beyond a lower corner of the gate conductive layer pattern to form an undercut region. The gate conductive layer pattern can be treated to round off the lower corner.
摘要:
Methods of forming semiconductor devices are provided. A preliminary gate structure is formed on a semiconductor substrate. The preliminary gate structure includes a gate insulation layer pattern, a polysilicon layer pattern and a conductive layer pattern. A first oxidation process is performed on the preliminary gate structure using an oxygen radical. The first oxidation process is carried out at a first temperature. A second oxidation process is carried out on the oxidized preliminary gate structure to provide a gate structure on the substrate, the second oxidation process being carried out at a second temperature, the second temperature being higher than the first temperature.
摘要:
A semiconductor device includes a first conductive layer on a semiconductor substrate, a dielectric layer including a high-k dielectric material on the first conductive layer, a second conductive layer including polysilicon doped with P-type impurities on the dielectric layer, and a third conductive layer including a metal on the second conductive layer. In some devices, a first gate structure is formed in a main cell region and includes a tunnel oxide layer, a floating gate, a first high-k dielectric layer, and a control gate. The control gate includes a layer of polysilicon doped with P-type impurities and a metal layer. A second gate structure is formed outside the main cell region and includes a tunnel oxide layer, a conductive layer, and a metal layer. A third gate structure is formed in a peripheral cell region and includes a tunnel oxide, a conductive layer, and a high-k dielectric layer having a width narrower than the conductive layer. Method embodiments are also disclosed.
摘要:
In methods of manufacturing semiconductor devices, a preliminary gate oxide layer is formed on a substrate. A surface treatment process is performed on the preliminary gate oxide layer that reduces a diffusion of an oxidizing agent in the preliminary gate oxide layer to form a gate oxide layer on the substrate. A preliminary gate structure is formed on the gate oxide layer. The preliminary gate structure includes a first conductive layer pattern on the gate oxide layer and a second conductive layer pattern on the first conductive layer pattern. An oxidation process is performed on the preliminary gate structure using the oxidizing agent to form an oxide layer on a sidewall of the first conductive layer pattern and on the gate oxide layer, and to round at least one edge portion of the first conductive layer pattern.
摘要:
In a method for forming a gate in a semiconductor device, a first preliminary gate structure is formed on a substrate. The first preliminary gate structure includes a gate oxide layer, a polysilicon layer pattern and a tungsten layer pattern sequentially stacked on the substrate. A primary oxidation process is performed using oxygen radicals at a first temperature for adjusting a thickness of the gate oxide layer to form a second preliminary gate structure having tungsten oxide. The tungsten oxide is reduced to a tungsten material using a gas containing hydrogen to form a gate structure. The tungsten oxide may not be formed on the gate structure so that generation of the whiskers may be suppressed. Thus, a short between adjacent wirings may not be generated.
摘要:
In a method for forming a gate in a semiconductor device, a first preliminary gate structure is formed on a substrate. The first preliminary gate structure includes a gate oxide layer, a polysilicon layer pattern and a tungsten layer pattern sequentially stacked on the substrate. A primary oxidation process is performed using oxygen radicals at a first temperature for adjusting a thickness of the gate oxide layer to form a second preliminary gate structure having tungsten oxide. The tungsten oxide is reduced to a tungsten material using a gas containing hydrogen to form a gate structure. The tungsten oxide may not be formed on the gate structure so that generation of the whiskers may be suppressed. Thus, a short between adjacent wirings may not be generated.
摘要:
A semiconductor device includes a first conductive layer on a semiconductor substrate, a dielectric layer including a high-k dielectric material on the first conductive layer, a second conductive layer including polysilicon doped with P-type impurities on the dielectric layer, and a third conductive layer including a metal on the second conductive layer. In some devices, a first gate structure is formed in a main cell region and includes a tunnel oxide layer, a floating gate, a first high-k dielectric layer, and a control gate. The control gate includes a layer of polysilicon doped with P-type impurities and a metal layer. A second gate structure is formed outside the main cell region and includes a tunnel oxide layer, a conductive layer, and a metal layer. A third gate structure is formed in a peripheral cell region and includes a tunnel oxide, a conductive layer, and a high-k dielectric layer having a width narrower than the conductive layer. Method embodiments are also disclosed.
摘要:
In a method of manufacturing a semiconductor device including a polysilicon layer on which a heat treatment is performed in hydrogen atmosphere, a preliminary polysilicon layer is formed on a semiconductor substrate. Fluorine (F) impurities are implanted onto the preliminary polysilicon layer, so that the preliminary polysilicon layer is formed into a polysilicon layer. A main heat treatment is performed on the polysilicon layer, thereby preventing a void caused by the fluorine (F) in the polysilicon layer. A subsidiary heat treatment is further performed on the polysilicon layer prior to the main heat treatment, thereby activating dopants in the polysilicon layer. Electrical characteristics and performance of a semiconductor device are improved since the void is sufficiently prevented in the polysilicon layer.
摘要:
A gate structure includes a gate insulation layer on a substrate, a polysilicon layer pattern on the gate insulation layer, a composite metal layer pattern on the polysilicon layer pattern, and a metal silicide layer pattern on a sidewall of the composite metal layer pattern.
摘要:
Embodiments of the present invention include semiconductor devices that can be made with relatively low resistance, and methods of forming the semiconductor devices. A resistance reducing layer is formed between a polysilicon layer and a metal layer. As a result, an interface resistance between the polysilicon layer and the metal layer is greatly reduced and a distribution of the interface resistance is very uniform. As a result, a conductive structure including the resistance reducing layer has a greatly reduced sheet resistance to improve electrical characteristics of a semiconductor device having the conductive structure.