Patent application number | Description | Published |
20080237861 | Novel Fluorine-Free Precursors and Methods for the Deposition of Conformal Conductive Films for Nanointerconnect Seed and Fill - A method including introducing a fluorine-free organometallic precursor in the presence of a substrate; and forming a conductive layer including a moiety of the organometallic precursor on the substrate according to an atomic layer or chemical vapor deposition process. A method including forming an opening through a dielectric layer to a contact point; introducing a fluorine-free copper film precursor and a co-reactant; and forming a copper-containing seed layer in the opening. A system including a computer including a microprocessor electrically coupled to a printed circuit board, the microprocessor including conductive interconnect structures formed from fluorine-free organometallic precursor. | 10-02-2008 |
20090022958 | AMORPHOUS METAL-METALLOID ALLOY BARRIER LAYER FOR IC DEVICES - A method for fabricating an amorphous metal-metalloid alloy layer for use in an IC device comprises providing a substrate in a reactor that includes a dielectric layer having a trench, pulsing a metal precursor into the reactor to deposit within the trench, wherein the metal precursor is selected from the group consisting of CpTa(CO) | 01-22-2009 |
20090253270 | DEPOSITION METHOD FOR HIGH-K DIELECTRIC MATERIALS - A method for depositing a high-k dielectric material on a semiconductor substrate is disclosed. The method includes applying a chemical bath to a surface of a substrate, rinsing the surface, applying a co-reactant bath to the surface of the substrate, and rinsing the surface. The chemical bath includes a metal precursor which includes at least a hafnium compound, an aluminium compound, a titanium compound, zirconium compound, a scandium compound, a yttrium compound or a lanthanide compound. | 10-08-2009 |
20100140717 | TUNABLE GATE ELECTRODE WORK FUNCTION MATERIAL FOR TRANSISTOR APPLICATIONS - Described herein are metal gate electrode stacks including a low resistance metal cap in contact with a metal carbonitride diffusion barrier layer, wherein the metal carbonitride diffusion barrier layer is tuned to a particular work function to also serve as a work function metal for a pMOS transistor. In an embodiment, the work function-tuned metal carbonitride diffusion barrier prohibits a low resistance metal cap layer of the gate electrode stack from migrating into the MOS junction. In a further embodiment of the present invention, the work function of the metal carbonitride barrier film is modulated to be p-type with a pre-selected work function by altering a nitrogen concentration in the film. | 06-10-2010 |
20100166981 | SURFACE CHARGE ENHANCED ATOMIC LAYER DEPOSITION OF PURE METALLIC FILMS - A method including applying an electric charge to a substrate in a chamber; introducing an organometallic substituent into the chamber, the organometallic substituent including a metal ligand and an organic ligand; and depositing a metal film by reducing the metal ligand of the organometallic substituent. A method including applying a removable electric charge to a substrate; in the presence of the applied electric charge, introducing an organometallic substituent into the chamber, the organometallic substituent including a metal ligand and an organic ligand; and depositing a metal film by reducing the metal ligand of the organometallic substituent. A method including introducing an organometallic substituent into the chamber, the organometallic substituent including a metal ligand and an organic ligand; and depositing a metal film by reducing the metal ligand of the organometallic substituent with an externally applied electric charge. | 07-01-2010 |
20100230817 | Using Unstable Nitrides to Form Semiconductor Structures - Incompatible materials, such as copper and nitrided barrier layers, may be adhered more effectively to one another. In one embodiment, a precursor of copper is deposited on the nitrided barrier. The precursor is then converted, through the application of energy, to copper which could not have been as effectively adhered to the barrier in the first place. | 09-16-2010 |
20110272811 | USING UNSTABLE NITRIDES TO FORM SEMICONDUCTOR STRUCTURES - Incompatible materials, such as copper and nitrided barrier layers, may be adhered more effectively to one another. In one embodiment, a precursor of copper is deposited on the nitrided barrier. The precursor is then converted, through the application of energy, to copper which could not have been as effectively adhered to the barrier in the first place. | 11-10-2011 |
20150093890 | COBALT METAL PRECURSORS - A metal precursor and a method comprising decomposing a metal precursor on an integrated circuit device; and forming a metal from the metal precursor, wherein the metal precursor is selected from the group consisting of (i) a Co | 04-02-2015 |