摘要:
Provided is a resistive memory device and a method of manufacturing the resistive memory device that includes a bottom electrode, an insulating layer that is formed on the bottom electrode and has a hole that exposes the bottom electrode, a resistance layer and an intermediate layer which are formed in the hole, a switch structure formed on a surface of the intermediate layer, and an upper electrode formed on the switch structure.
摘要:
A nonvolatile memory device including a lower electrode, a resistor structure disposed on the lower electrode, a middle electrode disposed on the resistor structure, a diode structure disposed on the middle electrode, and an upper electrode disposed on the diode structure. A nonvolatile memory device wherein the resistor structure includes one resistor and the diode structure includes one diode. An array of nonvolatile memory device as described above. Methods of manufacturing a nonvolatile memory device and an array of nonvolatile memory device
摘要:
A nonvolatile memory device having self-presence diode characteristics, and/or a nonvolatile memory array including the nonvolatile memory device may be provided. The nonvolatile memory device may include a lower electrode, a first semiconductor oxide layer on the lower electrode, a second semiconductor oxide layer on the first semiconductor oxide layer, and/or an upper electrode on the second semiconductor oxide layer.
摘要:
In a capacitor of a semiconductor device, a semiconductor memory device including the capacitor, and a method of operating the semiconductor memory device, the capacitor includes a lower electrode, a dielectric layer stacked on the lower electrode, the dielectric layer including a phase-transition layer capable of exhibiting two different resistance characteristics depending on whether an insulating property thereof has been changed, and an upper electrode stacked on the dielectric layer.
摘要:
Provided are a complementary metal oxide semiconductor (CMOS) device and a method of manufacturing the same. In the CMOS device, a buffer layer is disposed on a silicon substrate, and a first layer including a group III-V material is disposed on the buffer layer. A second layer including a group IV material is disposed on the buffer layer or the silicon substrate while being spaced apart from the first layer.
摘要:
Provided are a complementary metal oxide semiconductor (CMOS) device and a method of manufacturing the same. In the CMOS device, a buffer layer is disposed on a silicon substrate, and a first layer including a group III-V material is disposed on the buffer layer. A second layer including a group IV material is disposed on the buffer layer or the silicon substrate while being spaced apart from the first layer.
摘要:
Provided are a semiconductor device and a method of manufacturing the same. The semiconductor device includes: a memory array on a first substrate; and a peripheral circuit on a second substrate, wherein the first substrate and the second substrate may be attached to each other so that the memory array and the peripheral circuit are electrically connected to each other.
摘要:
A method of operating a semiconductor device that includes a variable resistance device, the method including applying a first voltage to the variable resistance device so as to change a resistance value of the variable resistance device from a first resistance value to a second resistance value that is different from the first resistance value; sensing first current flowing through the variable resistance device to which the first voltage is applied; determining whether the first current falls within a predetermined range of current; and if the first current does not fall within the first range of current, applying an additional first voltage that is equal to the first voltage to the variable resistance device.
摘要:
According to an example embodiment, a method of operating a semiconductor device includes applying a first voltage to the variable resistance device so as to change a resistance value of the variable resistance device from a first resistance value to a second resistance value that is different from the first resistance value, sensing first current flowing through the variable resistance device to which the first voltage is applied, determining a second voltage used to change the resistance value of the variable resistance device from the second resistance value to the first resistance value based on a distribution of the sensed first current, and applying the determined second voltage to the variable resistance device.
摘要:
A cross point memory array includes a structure in which holes are formed in an insulating layer and a storage node is formed in each of the holes. The storage node may include a memory resistor and a switching structure. The master for an imprint process used to form the cross-point memory array includes various pattern shapes, and the method of manufacturing the master uses various etching methods.