Abstract: An integrated circuitry construction comprises a substrate comprising conductive nodes of integrated circuitry. A conductive line structure is above the conductive nodes. Elevationally-extending conductive vias are spaced longitudinally along the conductive line structure. The conductive vias individually directly electrically couple the conductive line structure to individual of the conductive nodes. The conductive line structure comprises conductive material directly electrically coupled to the conductive vias and extending between immediately-longitudinally-adjacent of the conductive vias. An upper insulative material is directly below the conductive material between the immediately-longitudinally-adjacent conductive vias. Doped or undoped semiconductor material directly is below the upper insulative material between the immediately-longitudinally-adjacent conductive vias.

Abstract: A method of forming conductive vias comprises forming at least three parallel line constructions elevationally over a substrate. The line constructions individually comprise a dielectric top and dielectric sidewalls. A conductive line is formed elevationally over and angles relative to the line constructions. The conductive line comprises a longitudinally continuous portion and a plurality of conductive material extensions that individually extend elevationally inward between immediately adjacent of the line constructions. Etching is conducted elevationally through the longitudinally continuous portion and partially elevationally into the extensions at spaced locations along the conductive line to break-up the longitudinally continuous portion to form individual conductive vias extending elevationally between immediately adjacent of the line constructions. Methods of forming a memory array are also disclosed. Arrays of conductive vias independent of method of manufacture are also disclosed.

Abstract: A method of forming conductive vias comprises forming at least three parallel line constructions elevationally over a substrate. The line constructions individually comprise a dielectric top and dielectric sidewalls. A conductive line is formed elevationally over and angles relative to the line constructions. The conductive line comprises a longitudinally continuous portion and a plurality of conductive material extensions that individually extend elevationally inward between immediately adjacent of the line constructions. Etching is conducted elevationally through the longitudinally continuous portion and partially elevationally into the extensions at spaced locations along the conductive line to break-up the longitudinally continuous portion to form individual conductive vias extending elevationally between immediately adjacent of the line constructions. Methods of forming a memory array are also disclosed. Arrays of conductive vias independent of method of manufacture are also disclosed.

Abstract: A method of forming contacts for a semiconductor device structure comprises forming contact holes extending into neighboring semiconductive pillars and into a nitride material of nitride-capped electrodes. Composite structures are formed within the contact holes and comprise oxide structures over sidewalls of the contact holes and nitride structures over the oxide structures. Conductive structures are formed over inner sidewalls of the composite structures. Additional nitride-capped electrodes are formed over the conductive structures and extend perpendicular to the nitride-capped electrodes. Pairs of nitride spacers are formed over opposing sidewalls of the additional nitride-capped electrodes and are separated from neighboring pairs of nitride spacers by apertures extending to upper surfaces of a portion of the neighboring semiconductive pillars. Portions of the oxide structures are removed to expose sidewalls of the portion of the neighboring semiconductive pillars.

Abstract: A method of forming conductive vias comprises forming at least three parallel line constructions elevationally over a substrate. The line constructions individually comprise a dielectric top and dielectric sidewalls. A conductive line is formed elevationally over and angles relative to the line constructions. The conductive line comprises a longitudinally continuous portion and a plurality of conductive material extensions that individually extend elevationally inward between immediately adjacent of the line constructions. Etching is conducted elevationally through the longitudinally continuous portion and partially elevationally into the extensions at spaced locations along the conductive line to break-up the longitudinally continuous portion to form individual conductive vias extending elevationally between immediately adjacent of the line constructions. Methods of forming a memory array are also disclosed. Arrays of conductive vias independent of method of manufacture are also disclosed.

Abstract: A method of forming contacts for a semiconductor device structure comprises forming contact holes extending into neighboring semiconductive pillars and into a nitride material of nitride-capped electrodes. Composite structures are formed within the contact holes and comprise oxide structures over sidewalls of the contact holes and nitride structures over the oxide structures. Conductive structures are formed over inner sidewalls of the composite structures. Additional nitride-capped electrodes are formed over the conductive structures and extend perpendicular to the nitride-capped electrodes. Pairs of nitride spacers are formed over opposing sidewalls of the additional nitride-capped electrodes and are separated from neighboring pairs of nitride spacers by apertures extending to upper surfaces of a portion of the neighboring semiconductive pillars. Portions of the oxide structures are removed to expose sidewalls of the portion of the neighboring semiconductive pillars.

Abstract: A method of forming conductive vias comprises forming at least three parallel line constructions elevationally over a substrate. The line constructions individually comprise a dielectric top and dielectric sidewalls. A conductive line is formed elevationally over and angles relative to the line constructions. The conductive line comprises a longitudinally continuous portion and a plurality of conductive material extensions that individually extend elevationally inward between immediately adjacent of the line constructions. Etching is conducted elevationally through the longitudinally continuous portion and partially elevationally into the extensions at spaced locations along the conductive line to break-up the longitudinally continuous portion to form individual conductive vias extending elevationally between immediately adjacent of the line constructions. Methods of forming a memory array are also disclosed. Arrays of conductive vias independent of method of manufacture are also disclosed.