Provided are a thin film structure, a capacitor including the thin film structure, a semiconductor device including the thin film structure, and a method of manufacturing the thin film structure, in which the thin film structure may include: a first electrode thin film disposed on a substrate and including a first perovskite-based oxide; and a protective film disposed on the first electrode thin film and including a second perovskite-based oxide that is oxygen-deficient and includes a doping element. The thin film structure may prevent the deterioration of conductivity and a crystalline structure of a perovskite-based oxide electrode, which is a lower electrode, even in a high-temperature oxidizing atmosphere for subsequent dielectric film deposition.

A semiconductor device includes an insulating base including a trench, a transistor including a gate electrode and vertical channel in the trench, and a source electrode in the insulating base outside the trench, an isolation layer on the gate electrode in the trench, and a capacitor including a trench capacitor portion that is on the isolation layer in the trench, and a stacked capacitor portion that is coupled to the source electrode of the transistor outside the trench.

Provided are a capacitor, an electronic device including the same, and a method of manufacturing the same, the capacitor including a first thin-film electrode layer; a second thin-film electrode layer; a dielectric layer between the first thin-film electrode layer and the second thin-film electrode layer; and an interlayer between the dielectric and at least one of the first thin-film electrode layer or the second thin-film electrode layer, the interlayer including a same crystal structure type as and a different composition from at least one of the first thin film electrode layer, the second thin film electrode layer, or the dielectric layer, the interlayer including at least one of a anionized layer or a neutral layer.

An integrated circuit (IC) device includes a lower electrode including a main portion having a sidewall with at least one step portion, and a top portion having a width less than that of the main portion in a lateral direction. An upper support pattern contacts the top portion of the lower electrode. The upper support pattern includes a seam portion. To manufacture an IC device, a mold pattern and an upper sacrificial support pattern through which a plurality of holes pass are formed on a substrate. A plurality of lower electrodes are formed inside the plurality of holes. A peripheral space is formed on the mold pattern. An enlarged peripheral space is formed by reducing a width and a height of the top portion. An upper support pattern is formed to fill the enlarged peripheral space.

A DRAM device includes an isolation region defining source and drain regions in a substrate, a first bit line structure connected to the source region, a second bit line structure disposed on the isolation region, an inner spacer vertically extending on a first sidewall of the first bit line structure, an air gap is between the inner spacer and an outer spacer, a storage contact between the first and second bit line structures and connected to the drain region, a landing pad structure vertically on the storage contact, and a storage structure vertically on the landing pad structure. The sealing layer seals a top of the first air gap. The sealing layer includes a first sealing layer on a first sidewall of a pad isolation trench, and a second sealing layer on a second sidewall of the pad isolation trench and separated from the first sealing layer.

A DRAM device includes an isolation region defining source and drain regions in a substrate, a first bit line structure connected to the source region, a second bit line structure disposed on the isolation region, an inner spacer vertically extending on a first sidewall of the first bit line structure, an air gap is between the inner spacer and an outer spacer, a storage contact between the first and second bit line structures and connected to the drain region, a landing pad structure vertically on the storage contact, and a storage structure vertically on the landing pad structure. The sealing layer seals a top of the first air gap. The sealing layer includes a first sealing layer on a first sidewall of a pad isolation trench, and a second sealing layer on a second sidewall of the pad isolation trench and separated from the first sealing layer.

A semiconductor memory device includes a stack disposed over a first substrate; an etch barrier including a plurality of dummy channels which pass through the stack and surround a coupling region; and a plurality of channels passing through the stack in a cell region outside the coupling region. The stack has a structure in which first dielectric layers and second dielectric layers are alternately stacked, inside the coupling region, and has a structure in which the first dielectric layers and electrode layers are alternately stacked, outside the coupling region.

The invention relates to a DRAM structure which comprise a capacitor set and at least a transistor. The capacitor set includes a first capacitor with a first electrode and a second capacitor with a second electrode, and a counter electrode is shared by the first and the second capacitors. The counter electrode is perpendicular or substantially perpendicular to an extension direction of an active region of the transistor, or the counter electrode is not positioned above or below the first and second electrode.

Provided are a dielectric including an oxide represented by Formula 1 below and having a cubic crystal structure, a capacitor including the dielectric, a semiconductor device including the dielectric, and a method of manufacturing the dielectric.
(Rb.sub.xA.sub.1-x)(B.sub.yTa.sub.1-y)O.sub.3-δ  <Formula 1> In Formula 1 above, A is K, Na, Li, Cs, or a combination thereof, B is Nb, V, or a combination thereof, and 0.1≤x≤0.2, 0≤y≤0.2, and 0≤δ≤0.5 are satisfied.

A semiconductor structure includes at least one transistor. The transistor includes a channel, a gate, a source, and a drain. The channel includes a first material layer and a second material layer arranged around the first material layer. Resistivity of the first material layer is greater than a first preset value, and resistivity of the second material layer is less than a second preset value, the first preset value being greater than the second preset value. The gate covers at least one side of the channel. The source and the drain are at two ends of an extension direction of the channel.