摘要:
Memory cells having split charge storage nodes and methods for fabricating memory cells having split charge storage nodes are disclosed. A disclosed method includes forming a first trench and an adjacent second trench in a semiconductor substrate, the first trench and the second trench each defining a first sidewall and a second sidewall respectively and forming a first source/drain region in the substrate and a second source/drain region in the substrate, where the first source/drain region and the second source/drain region are formed substantially under the first trench and the second trench in the semiconductor substrate respectively. Moreover, a method includes forming a bit line punch through barrier in the substrate between the first source/drain region and the second source drain region and forming a first storage element on the first sidewall of the first trench and a second storage element on the second sidewall of the second element. A word line is formed in contact with the first storage element and the second storage element.
摘要:
Memory cells having split charge storage nodes and methods for fabricating memory cells having split charge storage nodes are disclosed. A disclosed method includes forming a first trench and an adjacent second trench in a semiconductor substrate, the first trench and the second trench each defining a first sidewall and a second sidewall respectively and forming a first source/drain region in the substrate and a second source/drain region in the substrate, where the first source/drain region and the second source/drain region are formed substantially under the first trench and the second trench in the semiconductor substrate respectively. Moreover, a method includes forming a bit line punch through barrier in the substrate between the first source/drain region and the second source drain region and forming a first storage element on the first sidewall of the first trench and a second storage element on the second sidewall of the second element. A word line is formed in contact with the first storage element and the second storage element.
摘要:
A dual charge storage node memory device and methods for its fabrication are provided. In one embodiment a dielectric plug is formed comprising a first portion recessed into a semiconductor substrate and a second portion extending above the substrate. A layer of semiconductor material is formed overlying the second portion. A first layered structure is formed overlying a first side of the second portion of the dielectric plug, and a second layered structure is formed overlying a second side, each of the layered structures overlying the layer of semiconductor material and comprising a charge storage layer between first and second dielectric layers. Ions are implanted into the substrate to form a first bit line and second bit line, and a layer of conductive material is deposited and patterned to form a control gate overlying the dielectric plug and the first and second layered structures.
摘要:
A dual charge storage node memory device and methods for its fabrication are provided. In one embodiment a dielectric plug is formed comprising a first portion recessed into a semiconductor substrate and a second portion extending above the substrate. A layer of semiconductor material is formed overlying the second portion. A first layered structure is formed overlying a first side of the second portion of the dielectric plug, and a second layered structure is formed overlying a second side, each of the layered structures overlying the layer of semiconductor material and comprising a charge storage layer between first and second dielectric layers. Ions are implanted into the substrate to form a first bit line and second bit line, and a layer of conductive material is deposited and patterned to form a control gate overlying the dielectric plug and the first and second layered structures.
摘要:
A dual charge storage node memory device and methods for its fabrication are provided. In one embodiment a dielectric plug is formed comprising a first portion recessed into a semiconductor substrate and a second portion extending above the substrate. A layer of semiconductor material is formed overlying the second portion. A first layered structure is formed overlying a first side of the second portion of the dielectric plug, and a second layered structure is formed overlying a second side, each of the layered structures overlying the layer of semiconductor material and comprising a charge storage layer between first and second dielectric layers. Ions are implanted into the substrate to form a first bit line and second bit line, and a layer of conductive material is deposited and patterned to form a control gate overlying the dielectric plug and the first and second layered structures.
摘要:
An embodiment of the present invention is directed to a memory cell. The memory cell includes a stack formed over a substrate. The stack includes a gate oxide layer and an overlying polycrystalline silicon layer. The stack further includes first and second undercut regions formed under the polycrystalline silicon layer and adjacent to the gate oxide layer. The memory cell further includes a first charge storage element formed in the first undercut region and a second charge storage element formed in the second undercut region.
摘要:
Methods are provided for fabricating a split charge storage node semiconductor memory device. In accordance with one embodiment the method comprises the steps of forming a gate insulator layer having a first physical thickness and a first effective oxide thickness on a semiconductor substrate and forming a control gate electrode having a first edge and a second edge overlying the gate insulator layer. The gate insulator layer is etched to form first and second undercut regions at the edges of the control gate electrode, the first and second undercut region each exposing a portion of the semiconductor substrate and an underside portion of the control gate electrode. First and second charge storage nodes are formed in the undercut regions, each of the charge storage nodes comprising an oxide-storage material-oxide structure having a physical thickness substantially equal to the first physical thickness and an effective oxide thickness less than the first effective oxide thickness.
摘要:
Methods are provided for fabricating a split charge storage node semiconductor memory device. In accordance with one embodiment the method comprises the steps of forming a gate insulator layer having a first physical thickness and a first effective oxide thickness on a semiconductor substrate and forming a control gate electrode having a first edge and a second edge overlying the gate insulator layer. The gate insulator layer is etched to form first and second undercut regions at the edges of the control gate electrode, the first and second undercut region each exposing a portion of the semiconductor substrate and an underside portion of the control gate electrode. First and second charge storage nodes are formed in the undercut regions, each of the charge storage nodes comprising an oxide-storage material-oxide structure having a physical thickness substantially equal to the first physical thickness and an effective oxide thickness less than the first effective oxide thickness.
摘要:
An embodiment of the present invention is directed to a memory cell. The memory cell includes a first charge storage element and a second charge storage element, wherein the first and second charge storage elements include nitrides. The memory cell further includes an insulating layer formed between the first and second charge storage elements. The insulating layer provides insulation between the first and second charge storage elements.
摘要:
Methods of replacing/reforming a top oxide around a charge storage element of a memory cell and methods of improving quality of a top oxide around a charge storage element of a memory cell are provided. The method can involve removing a first poly over a first top oxide from the memory cell; removing the first top oxide from the memory cell; and forming a second top oxide around the charge storage element. The second top oxide can be formed by oxidizing a portion of the charge storage element or by forming a sacrificial layer over the charge storage element and oxidizing the sacrificial layer to a second top oxide.