Abstract: A non-volatile memory device including a variable resistance material is provided. The non-volatile memory device may include a buffer layer, a variable resistance material layer and/or an upper electrode, for example, sequentially formed on a lower electrode. A schottky barrier may be formed on an interface between the buffer layer and the lower electrode. The variable resistance material layer may be formed with a variable resistance property.

Abstract: Provided are a thin film transistor and a method of manufacturing the same. The thin film transistor may include a gate; a channel layer; a source and a drain, the source and the drain being formed of metal; and a metal oxide layer, the metal oxide layer being formed between the channel layer and the source and the drain. The metal oxide layer may have a gradually changing metal content between the channel layer and the source and the drain.

Abstract: Provided are a diode structure and a memory device including the same. The diode structure includes: a first electrode; a p-type Cu oxide layer formed on the first electrode; an n-type InZn oxide layer formed on the p-type Cu oxide layer; and a second electrode formed on the n-type InZn oxide.

Abstract: Provided may be a multi-layer electrode, a cross point resistive memory array and method of manufacturing the same. The array may include a plurality of first electrode lines arranged parallel to each other; a plurality of second electrode lines crossing the first electrode lines and arranged parallel to each other; and a first memory resistor at intersections between the first electrode lines and the second electrode lines, wherein at least one of the first electrode lines and the second electrode lines have a multi-layer structure including a first conductive layer and a second conductive layer formed of a noble metal.

Abstract: Provided are a diode and a memory device comprising the diode. The diode includes a p-type semiconductor layer and an n-type semiconductor layer, wherein at least one of the p-type semiconductor layer and the n-type semiconductor layer comprises a resistance changing material whose resistance is changed according to a voltage applied to the resistance changing material.

Abstract: Provided is a variable resistance random access memory device having an n+ interfacial layer and a method of fabricating the same. The variable resistance random access memory device may include a lower electrode, an n+ interfacial layer on the lower electrode, a buffer layer on the n+ interfacial layer, an oxide layer on the buffer layer and having a variable resistance characteristic and an upper electrode on the oxide layer.

Abstract: Provided are a diode structure and a memory device including the same. The diode structure includes: a first electrode; a p-type Cu oxide layer formed on the first electrode; an n-type InZn oxide layer formed on the p-type Cu oxide layer; and a second electrode formed on the n-type InZn oxide.

Abstract: Example embodiments are directed to a junction field effect thin film transistor (JFETFT) including a first electrode formed on a substrate, a first conductive first gate semiconductor pattern formed on the first gate electrode, a second conductive semiconductor channel layer formed on the substrate and the first conductive first gate semiconductor pattern, and source and drain electrodes formed on the second conductive semiconductor pattern and located at both sides of the first conductive gate semiconductor pattern. The JFETFT may further include a first conductive second gate semiconductor pattern formed on a portion of the second conductive semiconductor channel layer between the source electrode and the drain electrode, and a second gate electrode formed on the first conductive second gate semiconductor pattern.

Abstract: Provided are a thin film transistor and a method of manufacturing the same. The thin film transistor may include a gate; a channel layer; a source and a drain, the source and the drain being formed of metal; and a metal oxide layer, the metal oxide layer being formed between the channel layer and the source and the drain. The metal oxide layer may have a gradually changing metal content between the channel layer and the source and the drain.

Abstract: An electrode structure having at least two oxide layers that more reliably switch and operate without the use of additional devices and a non-volatile memory device having the same are provided. The electrode structure may include a lower electrode, a first oxide layer formed on the lower electrode, a second oxide layer formed on the first oxide layer and an upper electrode formed on the second oxide layer wherein at least one of the first and second oxide layers may be formed of a resistance-varying material. The first oxide layer may be formed of an oxide having a variable oxidation state.

Abstract: A non-volatile memory device including a variable resistance material is provided. The non-volatile memory device may include a buffer layer, a variable resistance material layer and/or an upper electrode, for example, sequentially formed on a lower electrode. A schottky barrier may be formed on an interface between the buffer layer and the lower electrode. The variable resistance material layer may be formed with a variable resistance property.

Abstract: Example embodiments are directed to a junction field effect thin film transistor (JFETFT) including a first electrode formed on a substrate, a first conductive first gate semiconductor pattern formed on the first gate electrode, a second conductive semiconductor channel layer formed on the substrate and the first conductive first gate semiconductor pattern, and source and drain electrodes formed on the second conductive semiconductor pattern and located at both sides of the first conductive gate semiconductor pattern. The JFETFT may further include a first conductive second gate semiconductor pattern formed on a portion of the second conductive semiconductor channel layer between the source electrode and the drain electrode, and a second gate electrode formed on the first conductive second gate semiconductor pattern.

Abstract: Provided is a variable resistance random access memory device having an n+ interfacial layer and a method of fabricating the same. The variable resistance random access memory device may include a lower electrode, an n+ interfacial layer on the lower electrode, a buffer layer on the n+ interfacial layer, an oxide layer on the buffer layer and having a variable resistance characteristic and an upper electrode on the oxide layer.

Abstract: An electrode structure having at least two oxide layers that more reliably switch and operate without the use of additional devices and a non-volatile memory device having the same are provided. The electrode structure may include a lower electrode, a first oxide layer formed on the lower electrode, a second oxide layer formed on the first oxide layer and an upper electrode formed on the second oxide layer wherein at least one of the first and second oxide layers may be formed of a resistance-varying material. The first oxide layer may be formed of an oxide having a variable oxidation state.