摘要:
A memory device includes a phase change element, which further includes a first phase change layer having a first grain size; and a second phase change layer over the first phase change layer. The first and the second phase change layers are depth-wise regions of the phase change element. The second phase change layer has a second average grain size different from the first average grain size.
摘要:
The present disclosure provides a memory cell. The memory cell includes a first electrode, a variable resistive material layer coupled to the first electrode, a metal oxide layer coupled the variable resistive material layer; and a second electrode coupled to the metal oxide layer. In an embodiment, the metal oxide layer provides a constant resistance.
摘要:
A phase change memory is provided. The method includes forming contact plugs in a first dielectric layer. A second dielectric layer is formed overlying the first dielectric layer and a trench formed therein exposing portions of the contact plugs. A metal layer is formed over surfaces of the trench. One or more heaters are formed from the metal layer such that each heater is formed along one or more sidewalls of the trench, wherein the portion of the heater along the sidewalls does not include a corner region of adjacent sidewalls. The trench is filled with a third dielectric layer, and a fourth dielectric layer is formed over the third dielectric layer. Trenches are formed in the fourth dielectric layer and filled with a phase change material. An electrode is formed over the phase change material.
摘要:
Method of manufacturing a semiconductor chip. An array region gate stack is formed on an array region of a substrate and a periphery region gate stack is formed on a periphery region of a substrate. A first dielectric material, a charge-storing material, and a second dielectric material are deposited over the substrate. Portions of the first dielectric material, the charge-storing material, and the second dielectric material are removed to form storage structures on the array region gate stack and on the periphery region gate stack. The storage structures have a generally L-shaped cross-section. A first source/drain region is formed in the array region well. A third dielectric material and a spacer material are deposited over the substrate. Portions of the third dielectric material and the spacer material are removed to form spacers. A second source/drain region is formed in the periphery region well.
摘要:
A phase change memory is provided. The method includes forming contact plugs in a first dielectric layer. A second dielectric layer is formed overlying the first dielectric layer and a trench formed therein exposing portions of the contact plugs. A metal layer is formed over surfaces of the trench. One or more heaters are formed from the metal layer such that each heater is formed along one or more sidewalls and a portion of the bottom of the trench, wherein the portion of the heater along the sidewalls does not include a corner region of adjacent sidewalls. The trench is filled with a third dielectric layer, and a fourth dielectric layer is formed over the third dielectric layer. Trenches are formed in the fourth dielectric layer and filled with a phase change material. An electrode is formed over the phase change material.
摘要:
A method of fabricating a memory cell includes forming a bottom electrode on a substrate, a variable resistive material layer on the bottom electrode, and a top electrode on the variable resistive material layer. A first metal oxide layer interposes the top electrode and the variable resistive material layer. In an embodiment, the first metal oxide layer is a self-formed layer provided by the oxidation of a portion of the top electrode. In an embodiment, a second metal oxide layer is provided interposing the first metal oxide layer and the variable resistive material layer. The second metal oxide may be a self-formed layer formed by the reduction of the variable resistive material layer.
摘要:
A phase change memory is provided. The method includes forming contact plugs in a first dielectric layer. A second dielectric layer is formed overlying the first dielectric layer and a trench formed therein exposing portions of the contact plugs. A metal layer is formed over surfaces of the trench. One or more heaters are formed from the metal layer such that each heater is formed along one or more sidewalls and a portion of the bottom of the trench, wherein the portion of the heater along the sidewalls does not include a corner region of adjacent sidewalls. The trench is filled with a third dielectric layer, and a fourth dielectric layer is formed over the third dielectric layer. Trenches are formed in the fourth dielectric layer and filled with a phase change material. An electrode is formed over the phase change material.
摘要:
A gate stack is formed on a substrate. The gate stack has a sidewall. An oxide-nitride-oxide material is deposited on the gate stack. Portions of the oxide-nitride-oxide material are removed to form an oxide-nitride-oxide structure. The oxide-nitride-oxide structure has a generally L-shaped cross-section with a vertical portion along at least part of the gate stack sidewall and a horizontal portion along the substrate. A top oxide material is deposited over the substrate. A silicon nitride spacer material is deposited over the top oxide material. Portions of the top oxide material and the silicon nitride spacer material are removed to form a silicon nitride spacer separated from the oxide-nitride-oxide stack by the top oxide material. Source/drain regions are formed in the substrate.
摘要:
System for a memory device. An electronic device includes a non-volatile memory array. The non-volatile memory array includes a first transistor and a second transistor. The first and second transistors have a shared doped region. A first word line is formed along a first axis. The first word line includes a first gate electrode for the first transistor and a second gate electrode for the second transistor. The non-volatile memory array includes a bit line formed along a second axis. The first axis is perpendicular to the second axis. The bit line is electrically connected to the shared doped region.
摘要:
Non-volatile floating gate memory cells with polysilicon storage dots and fabrication methods thereof. The non-volatile floating gate memory cell comprises a semiconductor substrate of a first conductivity type. A first region of a second conductivity type different from the first conductivity type is formed in the semiconductor substrate. A second region of the second conductivity type is formed in the semiconductor substrate spaced apart from the first region. A channel region connects the first and second regions for the conduction of charges. A dielectric layer is disposed on the channel region. A control gate is disposed on the dielectric layer. A tunnel dielectric layer is conformably formed on the semiconductor substrate and the control gate. Two charge storage dots are spaced apart from each other at opposing lateral edges of the sidewalls of the control gate and surface of the semiconductor substrate.