摘要:
In a method of manufacturing a semiconductor device such as a flash memory device, an insulating pattern having an opening is formed to partially expose a surface of a substrate. A first silicon layer is formed on the exposed surface portion of the substrate and the insulating pattern. The first silicon layer has an opened seam overlying the previously exposed portion of the substrate. A heat treatment on the substrate is performed at a temperature sufficient to induce silicon migration so as to cause the opened seam to be closed via the silicon migration. A second silicon layer is then formed on the first silicon layer. Thus, surface profile of a floating gate electrode obtained from the first and second silicon layers may be improved.
摘要:
In a method of manufacturing a semiconductor device such as a flash memory device, an insulating pattern having an opening is formed to partially expose a surface of a substrate. A first silicon layer is formed on the exposed surface portion of the substrate and the insulating pattern. The first silicon layer has an opened seam overlying the previously exposed portion of the substrate. A heat treatment on the substrate is performed at a temperature sufficient to induce silicon migration so as to cause the opened seam to be closed via the silicon migration. A second silicon layer is then formed on the first silicon layer. Thus, surface profile of a floating gate electrode obtained from the first and second silicon layers may be improved.
摘要:
A method of forming a floating gate of a non-volatile memory device can include etching a mask pattern formed between field isolation regions in a field isolation pattern on a substrate to recess a surface of the mask pattern below an upper surface of adjacent field isolation regions to form an opening having a width defined by a side wall of the adjacent field isolation regions above the surface. Then the adjacent field isolation regions is etched to increase the width of the opening.
摘要:
A method of forming a floating gate of a non-volatile memory device can include etching a mask pattern formed between field isolation regions in a field isolation pattern on a substrate to recess a surface of the mask pattern below an upper surface of adjacent field isolation regions to form an opening having a width defined by a side wall of the adjacent field isolation regions above the surface. Then the adjacent field isolation regions is etched to increase the width of the opening.
摘要:
Methods of fabricating a floating gate of a flash memory cell are provided in which a first polysilicon layer is formed between first and second isolation layers. An upper region of the first polysilicon layer is then oxidized. The oxidized upper region of the first polysilicon layer is subsequently removed. A second polysilicon layer is formed on the first polysilicon layer. The second polysilicon layer and the first polysilicon layer are patterned to form the floating gate.
摘要:
A non-volatile memory device and a method of fabricating the same are provided. The method can include disposing an isolation layer on a semiconductor substrate. The isolation layer may protrude from the main surface of the semiconductor substrate and define an active region. In a recess defined by the protrusion of the isolation layer and the active region, a diffusion-retarding poly pattern and a floating gate may be formed in sequence. A control gate may be disposed on the isolation layer to cover the diffusion-retarding poly pattern and the floating gate.
摘要:
A non-volatile memory device and a method of fabricating the same are provided. The method can include disposing an isolation layer on a semiconductor substrate. The isolation layer may protrude from the main surface of the semiconductor substrate and define an active region. In a recess defined by the protrusion of the isolation layer and the active region, a diffusion-retarding poly pattern and a floating gate may be formed in sequence. A control gate may be disposed on the isolation layer to cover the diffusion-retarding poly pattern and the floating gate.
摘要:
Methods of fabricating a floating gate of a flash memory cell are provided in which a first polysilicon layer is formed between first and second isolation layers. An upper region of the first polysilicon layer is then oxidized. The oxidized upper region of the first polysilicon layer is subsequently removed. A second polysilicon layer is formed on the first polysilicon layer. The second polysilicon layer and the first polysilicon layer are patterned to form the floating gate.
摘要:
Methods of fabricating semiconductor devices including forming a mask pattern on a semiconductor substrate are provided. The mask pattern defines a first opening that at least partially exposes the semiconductor substrate and includes a pad oxide layer and a nitride layer pattern on the pad oxide layer pattern. The nitride layer has a line width substantially larger than the pad oxide layer pattern. A second opening that is connected to the first opening is formed by at least partially removing a portion of the semiconductor substrate exposed through the first opening. The second opening has a sidewall that has a first inclination angle and at least partially exposing the semiconductor substrate. A trench connected to the second opening is formed by etching a portion of the semiconductor substrate exposed through the second opening using the mask pattern as an etch mask. The trench is substantially narrower than the second opening and has a sidewall that has a second inclination angle that is substantially larger than the first inclination angle.
摘要:
In a method of manufacturing a memory device, a tunnel insulation layer and a floating gate layer are formed on a semiconductor substrate. A top surface of the floating gate layer is converted into a first nitride layer by a first nitridation treatment process. The first nitride layer is converted into a first oxynitride layer by a radical oxidation process. A lower oxide layer is formed on the first oxynitride layer by an LPCVD process. A second nitride layer and an upper oxide layer are formed on the lower oxide layer. A conductive layer is formed on the upper oxide layer. Thus, a multi-layered dielectric layer including the first oxynitride layer, the lower oxide layer, the second nitride layer, the upper oxide layer and the densified second oxynitride layer may have an increased capacitance without having degenerated leakage current characteristics.