| Patent application number | Description | Published |
|---|
| 20090195967 | Constructions Comprising Hafnium Oxide And/Or Zirconium Oxide - The invention includes ALD-type methods in which two or more different precursors are utilized with one or more reactants to form a material. In particular aspects, the precursors are hafnium and aluminum, the only reactant is ozone, and the material is hafnium oxide predominantly in a tetragonal crystalline phase. | 08-06-2009 |
| 20090244806 | Capacitors And Methods Of Forming Capacitors - A method of forming a capacitor includes forming a conductive first capacitor electrode material comprising TiN over a substrate. TiN of the TiN-comprising material is oxidized effective to form conductive TiO | 10-01-2009 |
| 20090273058 | ELECTRICAL COMPONENTS FOR MICROELECTRONIC DEVICES AND METHODS OF FORMING THE SAME - Electrical components for microelectronic devices and methods for forming electrical components. One particular embodiment of such a method comprises depositing an underlying layer onto a workpiece, and forming a conductive layer on the underlying layer. The method can continue by disposing a dielectric layer on the conductive layer. The underlying layer is a material that causes the dielectric layer to have a higher dielectric constant than without the underlying layer being present under the conductive layer. For example, the underlying layer can impart a structure or another property to the film stack that causes an otherwise amorphous dielectric layer to crystallize without having to undergo a separate high temperature annealing process after disposing the dielectric layer onto the conductive layer. Several examples of this method are expected to be very useful for forming dielectric layers with high dielectric constants because they avoid using a separate high temperature annealing process. | 11-05-2009 |
| 20100090309 | Capacitors, Dielectric Structures, And Methods Of Forming Dielectric Structures - Some embodiments include dielectric structures. The structures include first and second portions that are directly against one another. The first portion may contain a homogeneous mixture of a first phase and a second phase. The first phase may have a dielectric constant of greater than or equal to 25, and the second phase may have a dielectric constant of less than or equal to 20. The second portion may be entirely a single composition having a dielectric constant of greater than or equal to 25. Some embodiments include electrical components, such as capacitors and transistors, containing dielectric structures of the type described above. Some embodiments include methods of forming dielectric structures, and some embodiments include methods of forming electrical components. | 04-15-2010 |
| 20100176432 | Memory Cells, Methods Of Forming Dielectric Materials, And Methods Of Forming Memory Cells - Some embodiments include memory cells. The memory cells may include a tunnel dielectric material, a charge-retaining region over the tunnel dielectric material, crystalline ultra-high k dielectric material over the charge-retaining region, and a control gate material over the crystalline ultra-high k dielectric material. Additionally, the memory cells may include an amorphous region between the charge-retaining region and the crystalline ultra-high k dielectric material, and/or may include an amorphous region between the crystalline ultra-high k dielectric material and the control gate material. Some embodiments include methods of forming memory cells which contain an amorphous region between a charge-retaining region and a crystalline ultra-high k dielectric material, and/or which contain an amorphous region between a crystalline ultra-high k dielectric material and a control gate material. | 07-15-2010 |
| 20100315760 | Capacitors Having Dielectric Regions That Include Multiple Metal Oxide-Comprising Materials - Capacitors and methods of forming capacitors are disclosed, and which include an inner conductive metal capacitor electrode and an outer conductive metal capacitor electrode. A capacitor dielectric region is received between the inner and the outer conductive metal capacitor electrodes and has a thickness no greater than 150 Angstroms. Various combinations of materials of thicknesses and relationships relative one another are disclosed which enables and results in the dielectric region having a dielectric constant k of at least 35 yet leakage current no greater than 1×10 | 12-16-2010 |
| 20100316793 | Methods Of Forming Capacitors Having Dielectric Regions That Include Multiple Metal Oxide-Comprising Materials - Capacitors and methods of forming capacitors are disclosed, and which include an inner conductive metal capacitor electrode and an outer conductive metal capacitor electrode. A capacitor dielectric region is received between the inner and the outer conductive metal capacitor electrodes and has a thickness no greater than 150 Angstroms. Various combinations of materials of thicknesses and relationships relative one another are disclosed which enables and results in the dielectric region having a dielectric constant k of at least 35 yet leakage current no greater than 1×10 | 12-16-2010 |
| 20110020999 | Methods of Forming Dielectric Material-Containing Structures - Some embodiments include dielectric structures. The structures include first and second portions that are directly against one another. The first portion may contain a homogeneous mixture of a first phase and a second phase. The first phase may have a dielectric constant of greater than or equal to 25, and the second phase may have a dielectric constant of less than or equal to 20. The second portion may be entirely a single composition having a dielectric constant of greater than or equal to 25. Some embodiments include electrical components, such as capacitors and transistors, containing dielectric structures of the type described above. Some embodiments include methods of forming dielectric structures, and some embodiments include methods of forming electrical components. | 01-27-2011 |
