摘要:
A semiconductor device includes a semiconductor pattern on a semiconductor substrate, a three-dimensional memory array on the semiconductor pattern, and a peripheral interconnection structure between the semiconductor pattern and the semiconductor substrate. The peripheral interconnection structure includes an upper interconnection structure on a lower interconnection structure. The upper interconnection structure includes an upper interconnection and an upper barrier layer. The lower interconnection structure includes a lower interconnection and a lower barrier layer. The upper barrier layer is under a bottom surface of the upper interconnection and does not cover side surfaces of the upper interconnection. The lower barrier layer is under a bottom surface of the lower interconnection and covers side surfaces of the lower interconnection.
摘要:
A semiconductor device includes a semiconductor pattern on a semiconductor substrate, a three-dimensional memory array on the semiconductor pattern, and a peripheral interconnection structure between the semiconductor pattern and the semiconductor substrate. The peripheral interconnection structure includes an upper interconnection structure on a lower interconnection structure. The upper interconnection structure includes an upper interconnection and an upper barrier layer. The lower interconnection structure includes a lower interconnection and a lower barrier layer. The upper barrier layer is under a bottom surface of the upper interconnection and does not cover side surfaces of the upper interconnection. The lower barrier layer is under a bottom surface of the lower interconnection and covers side surfaces of the lower interconnection.
摘要:
Provided are three-dimensional semiconductor devices and methods of operating the same. The three-dimensional semiconductor devices may include active patterns arranged on a substrate to have a multi-layered and multi-column structure and drain patterns connected to respective columns of the active patterns. The methods may include a layer-selection step connecting a selected one of layers of the active patterns selectively to the drain patterns. For example, the layer-selection step may be performed in such a way that widths of depletion regions to be formed in end-portions of the active patterns are differently controlled depending on to a height from the substrate.
摘要:
A semiconductor device includes a lower stack structure including lower gate electrodes and lower insulating layers that are alternately and repeatedly stacked on a substrate. The semiconductor device includes an upper stack structure including upper gate electrodes and upper insulating layers that are alternately and repeatedly stacked on the lower stack structure. A lower channel structure penetrates the lower stack structure. An upper channel structure penetrates and is connected to the upper stack structure. A lower vertical insulator is disposed between the lower stack structure and the lower channel structure. The lower channel structure includes a first vertical semiconductor pattern connected to the substrate, and a first connecting semiconductor pattern disposed on the first vertical semiconductor pattern. The upper channel structure includes a second vertical semiconductor pattern electrically connected to the first vertical semiconductor pattern with the first connecting semiconductor pattern disposed therebetween.
摘要:
Provided are three-dimensional semiconductor devices and methods of operating the same. The three-dimensional semiconductor devices may include active patterns arranged on a substrate to have a multi-layered and multi-column structure and drain patterns connected to respective columns of the active patterns. The methods may include a layer-selection step connecting a selected one of layers of the active patterns selectively to the drain patterns. For example, the layer-selection step may be performed in such a way that widths of depletion regions to be formed in end-portions of the active patterns are differently controlled depending on to a height from the substrate.
摘要:
Provided are nonvolatile memory devices and a method of forming the same. A tunnel insulating pattern is provided on a substrate, and a floating gate is provided on the tunnel insulating pattern. A floating gate cap having a charge trap site is provided on the floating gate, and a gate dielectric pattern is provided on the floating gate cap. A control gate is provided on the gate dielectric pattern.
摘要:
Provided are nonvolatile memory devices and a method of forming the same. A tunnel insulating pattern is provided on a substrate, and a floating gate is provided on the tunnel insulating pattern. A floating gate cap having a charge trap site is provided on the floating gate, and a gate dielectric pattern is provided on the floating gate cap. A control gate is provided on the gate dielectric pattern.
摘要:
Disclosed herein is a jelly-roll type electrode assembly (“jelly-roll”) of a cathode/separator/anode structure, wherein the jelly-roll is constructed in a structure in which each electrode has active material layers formed on opposite major surfaces of a sheet-type current collector, the loading amount of an active material for the inner active material layer, constituting the inner surface of each sheet when each sheet is wound, is less than that of an active material for the outer active material layer, constituting the outer surface of each sheet when each sheet is wound, and the loading amount of the active material for the inner active material layer gradually increases from the central region of each wound sheet to the outermost region of each wound sheet.
摘要:
Disclosed herein is a jelly-roll type electrode assembly (“jelly-roll”) of a cathode/separator/anode structure, wherein the jelly-roll is constructed in a structure in which each electrode has active material layers formed on opposite major surfaces of a sheet-type current collector, the loading amount of an active material for the inner active material layer, constituting the inner surface of each sheet when each sheet is wound, is less than that of an active material for the outer active material layer, constituting the outer surface of each sheet when each sheet is wound, and the loading amount of the active material for the inner active material layer gradually increases from the central region of each wound sheet to the outermost region of each wound sheet.