Pranatharthi Haran
Balasubramanian Pranatharthi Haran, Watervliet, NY US
Patent application number | Description | Published |
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20130187203 | FORMATION OF THE DIELECTRIC CAP LAYER FOR A REPLACEMENT GATE STRUCTURE - Gate to contact shorts are reduced by forming dielectric caps in replaced gate structures. Embodiments include forming a replaced gate structure on a substrate, the replaced gate structure including an ILD having a cavity, a first metal on a top surface of the ILD and lining the cavity, and a second metal on the first metal and filling the cavity, planarizing the first and second metals, forming an oxide on the second metal, removing the oxide, recessing the first and second metals in the cavity, forming a recess, and filling the recess with a dielectric material. Embodiments further include dielectric caps having vertical sidewalls, a trapezoidal shape, a T-shape, or a Y-shape. | 07-25-2013 |
20140284717 | SEMICONDUCTOR STRUCTURE WITH DEEP TRENCH THERMAL CONDUCTION - Diodes and resistors for integrated circuits are provided. Deep trenches (DTs) are integrated into the diodes and resistors for the purposes of thermal conduction. The deep trenches facilitate conduction of heat from a semiconductor-on-insulator substrate to a bulk substrate. Semiconductor fins may be formed to align with the deep trenches. | 09-25-2014 |
20140284760 | INTEGRATED PASSIVE DEVICES FOR FINFET TECHNOLOGIES - Integrated passive devices for silicon on insulator (SOI) FinFET technologies and methods of manufacture are disclosed. The method includes forming a passive device on a substrate on insulator material. The method further includes removing a portion of the insulator material to expose an underside surface of the substrate on insulator material. The method further includes forming material on the underside surface of the substrate on insulator material, thereby locally thickening the substrate on insulator material under the passive device. | 09-25-2014 |
20140299924 | FORMATION OF THE DIELECTRIC CAP LAYER FOR A REPLACEMENT GATE STRUCTURE - Gate to contact shorts are reduced by forming dielectric caps in replaced gate structures. Embodiments include forming a replaced gate structure on a substrate, the replaced gate structure including an ILD having a cavity, a first metal on a top surface of the ILD and lining the cavity, and a second metal on the first metal and filling the cavity, planarizing the first and second metals, forming an oxide on the second metal, removing the oxide, recessing the first and second metals in the cavity, forming a recess, and filling the recess with a dielectric material. Embodiments further include dielectric caps having vertical sidewalls, a trapezoidal shape, a T-shape, or a Y-shape. | 10-09-2014 |
20150054082 | SEMICONDUCTOR STRUCTURE WITH DEEP TRENCH THERMAL CONDUCTION - Diodes and resistors for integrated circuits are provided. Deep trenches (DTs) are integrated into the diodes and resistors for the purposes of thermal conduction. The deep trenches facilitate conduction of heat from a semiconductor-on-insulator substrate to a bulk substrate. Semiconductor fins may be formed to align with the deep trenches. | 02-26-2015 |
Balasubramanian Pranatharthi Haran, Elmsford, NY US
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20130140681 | SUPERFILLED METAL CONTACT VIAS FOR SEMICONDUCTOR DEVICES - In accordance with one aspect of the invention, a method is provided for fabricating a semiconductor element having a contact via. In such method, a hole can be formed in a dielectric layer to at least partially expose a region including at least one of semiconductor or conductive material. A seed layer can be deposited over a major surface of the dielectric layer and over a surface within the hole. In one embodiment, the seed layer can include a metal selected from the group consisting of iridium, osmium, palladium, platinum, rhodium, and ruthenium. A layer consisting essentially of cobalt can be electroplated over the seed layer within the hole to form a contact via in electrically conductive communication with the region. | 06-06-2013 |
Balasubramanian S. Pranatharthi Haran, Watervliet, NY US
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20090092799 | MIXED LITHOGRAPHY WITH DUAL RESIST AND A SINGLE PATTERN TRANSFER - An inorganic electron beam sensitive oxide layer is formed on a carbon based material layer or an underlying layer. The inorganic electron beam sensitive oxide layer is exposed with an electron beam and developed to form patterned oxide regions. An ultraviolet sensitive photoresist layer is applied over the patterned oxide regions and exposed surfaces of the carbon based material layer, and subsequently exposed with an ultraviolet radiation and developed. The combined pattern of the patterned ultraviolet sensitive photoresist and the patterned oxide regions is transferred into the carbon based material layer, and subsequently into the underlying layer to form trenches. The carbon based material layer serves as a robust mask for performing additional pattern transfer into the underlying layer, and may be easily stripped afterwards. The patterned ultraviolet sensitive photoresist, the patterned oxide regions, and the patterned carbon based material layer are subsequently removed. | 04-09-2009 |
20110123779 | MIXED LITHOGRAPHY WITH DUAL RESIST AND A SINGLE PATTERN TRANSFER - An inorganic electron beam sensitive oxide layer is formed on a carbon based material layer or an underlying layer. The inorganic electron beam sensitive oxide layer is exposed with an electron beam and developed to form patterned oxide regions. An ultraviolet sensitive photoresist layer is applied over the patterned oxide regions and exposed surfaces of the carbon based material layer, and subsequently exposed with an ultraviolet radiation and developed. The combined pattern of the patterned ultraviolet sensitive photoresist and the patterned oxide regions is transferred into the carbon based material layer, and subsequently into the underlying layer to form trenches. The carbon based material layer serves as a robust mask for performing additional pattern transfer into the underlying layer, and may be easily stripped afterwards. The patterned ultraviolet sensitive photoresist, the patterned oxide regions, and the patterned carbon based material layer are subsequently removed. | 05-26-2011 |
Balasubramanian S. Pranatharthi Haran, Yorktown Heights, NY US
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20080274611 | METHOD AND PROCESS FOR FORMING A SELF-ALIGNED SILICIDE CONTACT - The present invention provides a method for forming a self-aligned Ni alloy silicide contact. The method of the present invention begins by first depositing a conductive Ni alloy with Pt and optionally at least one of the following metals Pd, Rh, Ti, V, Cr, Zr, Nb, Mo, Hf, Ta, W or Re over an entire semiconductor structure which includes at least one gate stack region. An oxygen diffusion barrier comprising, for example, Ti, TiN or W is deposited over the structure to prevent oxidation of the metals. An annealing step is then employed to cause formation of a NiSi, PtSi contact in regions in which the metals are in contact with silicon. The metal that is in direct contact with insulating material such as SiO | 11-06-2008 |