Patent application number | Description | Published |
20080206950 | Methods of forming a plurality of capacitors - A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive metal nitride-comprising material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Inner sidewalls of the conductive material within the trench are annealed in a nitrogen-comprising atmosphere. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area. The conductive material within the array area is incorporated into a plurality of capacitors. | 08-28-2008 |
20090047769 | Methods of Forming a Plurality of Capacitors - A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Covering material is formed over an elevationally outer lateral interface of the conductive material within the trench and the insulative material of the circuitry area. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area and to expose the conductive material within the trench. The conductive material within the array area is incorporated into a plurality of capacitors. | 02-19-2009 |
20100041204 | Methods Of Making Capacitors, DRAM Arrays and Electronic Systems - Some embodiments include methods of making stud-type capacitors utilizing carbon-containing support material. Openings may be formed through the carbon-containing support material to electrical nodes, and subsequently conductive material may be grown within the openings. The carbon-containing support material may then be removed, and the conductive material utilized as stud-type storage nodes of stud-type capacitors. The stud-type capacitors may be incorporated into DRAM, and the DRAM may be utilized in electronic systems. | 02-18-2010 |
20100105186 | Methods For Forming Semiconductor Constructions, And Methods For Selectively Etching Silicon Nitride Relative To Conductive Material - The invention includes methods for selectively etching insulative material supports relative to conductive material. The invention can include methods for selectively etching silicon nitride relative to metal nitride. The metal nitride can be in the form of containers over a semiconductor substrate, with such containers having upwardly-extending openings with lateral widths of less than or equal to about 4000 angstroms; and the silicon nitride can be in the form of a layer extending between the containers. The selective etching can comprise exposure of at least some of the silicon nitride and the containers to Cl | 04-29-2010 |
20100151653 | Methods Of Forming A Plurality Of Capacitors - A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Covering material is formed over an elevationally outer lateral interface of the conductive material within the trench and the insulative material of the circuitry area. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area and to expose the conductive material within the trench. The conductive material within the array area is incorporated into a plurality of capacitors. | 06-17-2010 |
20100193853 | SEMICONDUCTOR DEVICES AND STRUCTURES INCLUDING AT LEAST PARTIALLY FORMED CONTAINER CAPACITORS AND METHODS OF FORMING THE SAME - Methods of forming semiconductor devices that include one or more container capacitors include anchoring an end of a conductive member to a surrounding lattice material using an anchor material, which may be a dielectric. The anchor material may extend over at least a portion of an end surface of the conductive member, at least a portion of the lattice material, and an interface between the conductive member and the lattice material. In some embodiments, the anchor material may be formed without significantly covering an inner sidewall surface of the conductive member. Furthermore, in some embodiments, a barrier material may be provided over at least a portion of the anchor material and over at least a portion of an inner sidewall surface of the conductive member. Novel semiconductor devices and structures are fabricated using such methods. | 08-05-2010 |
20100221916 | Methods of Etching Oxide, Reducing Roughness, and Forming Capacitor Constructions - The invention includes methods in which one or more components of a carboxylic acid having an aqueous acidic dissociation constant of at least 1×10 | 09-02-2010 |
20100311219 | Methods of Forming a Plurality of Capacitors - A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive metal nitride-comprising material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Inner sidewalls of the conductive material within the trench are annealed in a nitrogen-comprising atmosphere. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area. The conductive material within the array area is incorporated into a plurality of capacitors. | 12-09-2010 |
20110214266 | Methods of Forming Capacitors - A method of forming a capacitor includes providing material having an opening therein over a node location on a substrate. A shield is provided within and across the opening, with a void being received within the opening above the shield and a void being received within the opening below the shield. The shield is etched through within the opening. After the etching, a first capacitor electrode is formed within the opening in electrical connection with the node location. A capacitor dielectric and a second capacitor electrode are formed operatively adjacent the first capacitor electrode | 09-08-2011 |
20120034753 | Methods of Forming a Plurality of Capacitors - A method of forming a plurality of capacitors includes an insulative material received over a capacitor array area and a circuitry area. The array area comprises a plurality of capacitor electrode openings within the insulative material received over individual capacitor storage node locations. The intervening area comprises a trench. Conductive metal nitride-comprising material is formed within the openings and against a sidewall portion of the trench to less than completely fill the trench. Inner sidewalls of the conductive material within the trench are annealed in a nitrogen-comprising atmosphere. The insulative material within the array area is etched with a liquid etching solution effective to expose outer sidewall portions of the conductive material within the array area. The conductive material within the array area is incorporated into a plurality of capacitors. | 02-09-2012 |
20120043596 | SEMICONDUCTOR DEVICES AND STRUCTURES INCLUDING AT LEAST PARTIALLY FORMED CONTAINER CAPACITORS - Semiconductor device structures include an at least partially formed container capacitor having a generally cylindrical first conductive member with at least one inner sidewall surface, a lattice material at least partially laterally surrounding an upper end portion of the first conductive member, an anchor material, and at least one aperture extending through the lattice material between the at least partially formed container capacitor and an adjacent at least partially formed container capacitor. Other structures include an at least partially formed container capacitor, a lattice material, and an anchor material disposed over a surface of the lattice material and at least a portion of an end surface of the first conductive member and forming a chemical barrier over at least a portion of an interface between the lattice material and the upper end portion of the first conductive member. | 02-23-2012 |
20120214306 | METHOD FOR OBTAINING EXTREME SELECTIVITY OF METAL NITRIDES AND METAL OXIDES - Methods for etching metal nitrides and metal oxides include using ultradilute HF solutions and buffered, low-pH HF solutions containing a minimal amount of the hydrofluoric acid species H | 08-23-2012 |
20130005111 | Methods of Forming Capacitors - Some embodiments include methods of making stud-type capacitors utilizing carbon-containing support material. Openings may be formed through the carbon-containing support material to electrical nodes, and subsequently conductive material may be grown within the openings. The carbon-containing support material may then be removed, and the conductive material utilized as stud-type storage nodes of stud-type capacitors. The stud-type capacitors may be incorporated into DRAM, and the DRAM may be utilized in electronic systems. | 01-03-2013 |
20130093050 | Integrated Circuitry, Methods Of Forming Capacitors, And Methods Of Forming Integrated Circuitry Comprising An Array Of Capacitors And Circuitry Peripheral To The Array - A method of forming capacitors includes providing a support material over a substrate. The support material is at least one of semiconductive or conductive. Openings are formed into the support material. The openings include at least one of semiconductive or conductive sidewalls. An insulator is deposited along the semiconductive and/or conductive opening sidewalls. A pair of capacitor electrodes having capacitor dielectric there-between is formed within the respective openings laterally inward of the deposited insulator. One of the pair of capacitor electrodes within the respective openings is laterally adjacent the deposited insulator. Other aspects are disclosed, including integrated circuitry independent of method of manufacture. | 04-18-2013 |
20130244426 | METHOD FOR OBTAINING EXTREME SELECTIVITY OF METAL NITRIDES AND METAL OXIDES - Methods for etching metal nitrides and metal oxides include using ultradilute HF solutions and buffered, low-pH HF solutions containing a minimal amount of the hydrofluoric acid species H | 09-19-2013 |
20130252398 | Methods for Forming Semiconductor Constructions, and Methods for Selectively Etching Silicon Nitride Relative to Conductive Material - The invention includes methods for selectively etching insulative material supports relative to conductive material. The invention can include methods for selectively etching silicon nitride relative to metal nitride. The metal nitride can be in the form of containers over a semiconductor substrate, with such containers having upwardly-extending openings with lateral widths of less than or equal to about 4000 angstroms; and the silicon nitride can be in the form of a layer extending between the containers. The selective etching can comprise exposure of at least some of the silicon nitride and the containers to Cl | 09-26-2013 |
20140162430 | Methods for Forming Semiconductor Constructions, and Methods for Selectively Etching Silicon Nitride Relative to Conductive Material - The invention includes methods for selectively etching insulative material supports relative to conductive material. The invention can include methods for selectively etching silicon nitride relative to metal nitride. The metal nitride can be in the form of containers over a semiconductor substrate, with such containers having upwardly-extending openings with lateral widths of less than or equal to about 4000 angstroms; and the silicon nitride can be in the form of a layer extending between the containers. The selective etching can comprise exposure of at least some of the silicon nitride and the containers to Cl | 06-12-2014 |
20140162457 | Substrate Mask Patterns, Methods Of Forming A Structure On A Substrate, Methods Of Forming A Square Lattice Pattern From An Oblique Lattice Pattern, And Methods Of Forming A Pattern On A Substrate - A method of forming a pattern on a substrate comprises forming spaced, upwardly-open, cylinder-like structures projecting longitudinally outward of a base. Sidewall lining is formed over inner and over outer sidewalls of the cylinder-like structures, and that forms interstitial spaces laterally outward of the cylinder-like structures. The interstitial spaces are individually surrounded by longitudinally-contacting sidewall linings that are over outer sidewalls of four of the cylinder-like structures. Other embodiments are disclosed, including structure independent of method. | 06-12-2014 |
20140162459 | Methods of Forming A Pattern On A Substrate - A method of forming a pattern on a substrate includes forming spaced first material-comprising pillars projecting elevationally outward of first openings formed in second material. Sidewall spacers are formed over sidewalls of the first material-comprising pillars. The sidewall spacers form interstitial spaces laterally outward of the first material-comprising pillars. The interstitial spaces are individually surrounded by longitudinally-contacting sidewall spacers that are over sidewalls of four of the first material-comprising pillars. | 06-12-2014 |
20150031212 | METHOD FOR OBTAINING EXTREME SELECTIVITY OF METAL NITRIDES AND METAL OXIDES - Methods for etching metal nitrides and metal oxides include using ultradilute HF solutions and buffered, low-pH HF solutions containing a minimal amount of the hydrofluoric acid species H | 01-29-2015 |