World Patents

Continuing our service, the CDI will publish a list of world patent applications associated with cobalt. Here are the applications lodged over the last six months from April 30th, 2003 to the end of December 2003.

Format - Each patent identified is documented in the form:

• PCT Publication Number e.g. WO 0134567
• Patent Type e.g. A1
• Date of Publication in US format e.g. (06/25/01)
• Applicant e.g. A Corporation
• Inventor(s): e.g. Smith, G.; Brown A.
• Patent Title, e.g. METHOD FOR PUBLISHING A PATENT
• Abstract: An abridged version of the published abstract, which attempts to retain the essential key facts.

For each classification the patents are listed in chronological order, the most recent appearing first.

It should be noted that as of 1 January 2004, the PCT publication number format changed to include the full year number. E.g. WO 04018724 A1 now appears WO 2004/018724 A1. References to previously published PCT applications in this survey use the same nomenclature.

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July 2005

ALLOYS

WO 2005/028690 A1 (03/31/05) Alstom Technology Ltd
Schnell, A; Morgan, E; Stankowski, A.
BRAZE ALLOY AND THE USE USE OF SAID BRAZE ALLOY

An oxidation and corrosion resistant braze alloy consisting of (wt.-%) 10-15% Cr, 4.5-6% Al, 0.17-­0.3% Y, 8-12% Co, 0-4% W, 2.5-5% Ta, 2.0-3.5% B with Cr+Al > 15%, Cr/Al ? 3 and Al + Ta > 7.5%, remainder Nickel and unavoidable impurities is used for brazing onto a nickel based or a cobalt based superalloy article.

WO 2005/026399 A1 (03/24/05) ATI Properties, Inc., Fort Wayne Metals Research Products Coporation
Forbes Jones, R. M.; Lippard, H. E.; Stephenson, T. A.; Myers, R. J.; Bradley, D. J.
COBALT-NICKEL-CHROMIUM-MOLYBDENUM ALLOYS WITH REDUCED LEVEL OF TITANIUM NITRIDE INCLUSIONS

A cobalt-nickel-chromium-molybdenum alloy useful in surgical implant applications includes, in wt%, at least 20 cobalt, 33.0 to 37.0 nickel, 19.0 to 21.0 chromium, 9.0 to 10.5 molybdenum, and less than 30 ppm nitrogen and lack significant levels of titanium nitride and mixed carbonitride inclusions.

WO 2005/017218 A2 (02/24/05) Texaco Ovonic Hydrogen Systems LLC
Huang, B.; Ovshinsky, S. R.
HYDROGEN STORAGE ALLOYS PROVIDING FOR THE REVERSIBLE STORAGE OF HYDROGEN AT LOW TEMPERATURES

An alloy capable of storing and releasing reversibly large volumes of hydrogen at temperatures from 0-40°C., contains titanium, vanadium, and chromium and optionally manganese. Modifiers such as zirconium, iron, nickel, molybdenum, ruthenium, and/or cobalt, and scavengers such as misch metal, calcium, and/or magnesium may be included, to improve performance.

WO 2005/007909 A2 (01/27/05) ATI Properties, Inc.
Kennedy, R. L.; Lippard, H. E.
COBALT ALLOYS, METHODS OF MAKING COBALT ALLOYS, AND IMPLANTS AND ARTICLES OF MANUFACTURE MADE THEREFROM

Methods of processing cobalt alloys including, 26-30 wt% chromium, 5-7 wt% molybdenum, and >50 wt% cobalt, by cold working and aging the alloys either in part or the totality such that after aging the cobalt alloys have a hardness of at least Rockwell C 50. Cobalt alloy implants, and other articles are described.

WO 2004/074525 A3 (12/29/04) Vacuumschmelze GmbH & CO. KG
Weber, H.; D?ring, W.; Schierling, M.
ELECTRICAL CONTACT MATERIAL CONSISTING OF A COBALT-NICKEL-IRON ALLOY AND METHOD FOR PRODUCING SAID MATERIAL

A2 published (09/02/04)

WO 2004/094135 A1 (11/04/04) Target Technology Company, LLC
Nee, H. H.
METAL ALLOYS FOR THE REFLECTIVE OR THE SEMI-REFLECTIVE LAYER OF AN OPTICAL STORAGE MEDIUM

A silver-based alloy thin film for the highly reflective or semi-reflective coating layer of optical discs. Elements that can be added to silver include zinc, aluminum, copper, manganese, germanium, yttrium, bismuth, scandium, and cobalt. The alloys have moderate to high reflectivity and reasonable corrosion resistance in the ambient environment.

BATTERIES

WO 2005/028371 A1 (03/31/03) Seimi Chemical Co. Ltd
Suhara, M; Mihara, T; Yajima, S; Ueda, K; Wakasugi, Y.
COMPOSITE OXIDE CONTAINING LITHIUM, NICKEL, COBALT, MANGANESE, AND FLUORINE, PROCESS FOR PRODUCING THE SAME, AND LITHIUM SECONDARY CELL EMPLOYING IT

A composite oxide positive electrode active material for a readily-available high-safety lithium secondary cell having a wide usable voltage range, a high charge/discharge cycle resistance, and a high capacity, contains lithium, nickel, cobalt, manganese, and fluorine and has a general formula LipNixMn1-x-yCoyO2-qFq (where 0.98?p?1.07, 0.3?x?0.5, 0.1?y?0.38, 0

WO 2005/020354 A1 (03/03/05) Seimi Chemical Co., Ltd.
Suhara, M.; Mihara, T.; Udea, K.; Wakasugi, Y.
POSITIVE ELECTRODE ACTIVE MATERIAL POWDER FOR LITHIUM SECONDARY BATTERY

A composite oxide powder for positive electrode of lithium secondary battery which has high volumetric capacity, high safety, and excellent charge/discharge cycle durability, consists of agglomerated particles of a lithium composite oxide of general formula: LipNixCoyMnzMqO2-aFa where M is a transition metal other than Ni, Co or Mn, aluminum, or an alkaline earth metal.

WO 2005/018021 A1 (02/24/05) Toyo Kohan Co., Ltd.
Tomomori, T.; Honda, Y.; Yamane, E.; Okamatsu, E.; Ohmura, H.
BATTERY CASE-USE SURFACE-TREATED STEEL SHEET, BATTERY CASE AND BATTERY USING IT

A steel battery case made from a treated steel sheet where the inner surface has a nickel-plated layer as a lower layer and a nickel-phosphorus-alloy-plated layer or a nickel-cobalt-phosphorus-alloy-plated layer as an upper layer is produced by a deep drawing method, ie a DI (drawing and ironing) method, or a DTR (drawing thin and redraw) method.

WO 2004/013882 A3 (02/24/05) NexTech Materials, Ltd.
Seabaugh, M. M.; Swartz, S. L.
NANO-COMPOSITE ELECTRODES AND METHOD OF MAKING THE SAME

A2 published (02/12/04)

CATALYSIS

WO 2005/028105 A1 (03/31/05) Kabushiki Kaisha Meidensha, The Japan Steel Works, Ltd.
Ichikawa, M.; Kojima, R.; Ito, H.; Nakamura, S.; Kuramoto, M.; Ogawa, Y.; Mizobuchi, Y.
CATALYST FOR AROMATIZING LOWER HYDROCARBON AND METHOD FOR PREPARATION THEREOF, AND METHOD FOR PRODUCING AROMATIC COMPOUND AND HYDROGEN

An improved aromatization catalyst for lower hydrocarbons, is made by carbonization of metallosilicate supported molybdenum and iron, cobalt or nickel mixed with a reducing gas, preferably a gas containing a lower hydrocarbon and hydrogen, a hydrogen gas or an ammonia gas.

WO 2004/085575 A3 (03/31/05) ConocoPhillips Company
Espinoza, R. L.; Zhang, J.; Wright, H. A.; Harkins, T. H.
COMMERCIAL FISCHER-TROPSCH REACTOR

A2 published (10/07/04)

WO 2005/023416 A1 (03/17/05) Board Of Regents, The University Of Texas System, Centro De Investigacion En Materiales Avanzados, S.C.
Fuentes, S.; Chianelli, R. R.
MOLYBDENUM SULFIDE/CARBIDE CATALYSTS

Molybdenum disulfide (MoS2) and carbon-containing molybdenum disulfide (MoS2-XCX) catalysts wiath improved catalytic activity for hydrotreating reactions involving hydrodesulfurization, hydrodenitrogenation, and hydrogenation, and promotion of these catalysts with Co, Ni, Fe, and/or Ru sulfides.

WO 2005/016496 A2 (02/24/05) Johnson Matthey Public Limited Company
Stanislaw, E. G.; Houel, V. M. R.; Hawkins, A.; James, D. W.; Pollington, S. D.; Poulston, S.; Rajaram, R. R.
CATALYST STRUCTURE FOR TREATING NOX CONTAINING EXHAUST GAS FROM A LEAN BURN ENGINE

A lean burn internal combustion engine exhaust gas catalyst consists of a substrate monolith containing a lean NOX catalyst consisting of silver or a silver compound supported on alumina plus zeolite supported Cu, Fe, Co or Ce and a partial oxidation catalyst consisting of (i) a bulk, composite or mixed oxide containing Mn, Fe, Ce or Pr; and (ii) Rh or Pd on an oxide support.

WO 2005/014170 A1 (02/17/05) Kabushiki Kaisha Toyota Chuo Kenkyusho
Morikawa, T.; Suzuki, K.; Masaki, H.; Ohwaki, T.; Taga, Y.
PHOTOCATALYST MATERIAL BEING ACTIVATED BY VISIBLE LIGHT, RAW MATERIAL FOR THE SAME AND METHOD FOR PRODUCING THE SAME

A photocatalyst material is produced by adding a N, S, C or P atom to a metal oxide or a precursor thereof, and incorporating vanadium, manganese, chromium, iron, cobalt, copper, yttrium, zirconium, niobium, molybdenum or a lanthanoid onto the surface or into the interior of the metal oxide or a precursor thereof, where it is bound to an oxygen atom or as a hydroxide or salt.

WO 2004/091777 A3 (02/17/05) W.R. Grace & Co.-Conn.
Schmidt, S. R.
NICKEL AND COBALT PLATED SPONGE CATALYSTS

A2 published (10/28/04)

WO 2004/094044 A1 (02/10/05) National Institute Of Advanced Industrial Science And Technology
Tani, E.; Kimura, K.
THREE-DIMENSIONAL FINE CELL STRUCTURED PHOTOCATALYST FILTER RESPONDING TO VISIBLE LIGHT AND METHOD FOR PRODUCTION THEREOF, AND CLARIFICATION DEVICE

Originally published (11/04/04)

WO 2004/094044 A1 (11/04/04) National Institute of Advanced Industrial Science And Technology
Tani, E.; Kimura, K.
THREE-DIMENSIONAL FINE CELL STRUCTURED PHOTOCATALYST FILTER RESPONDING TO VISIBLE LIGHT AND METHOD FOR PRODUCTION THEREOF, AND CLARIFICATION DEVICE

A three-dimensional fine cell structured photocatalyst filter responding to a visible light, which comprises an anatase-type titanium dioxide coated spongy porous structural material, consisting of (a) C and Si and/or a Si alloy, (b) Si, a Si alloy and carbon, and SiC, (c) Si, a Si alloy, C or SiC, and SiN, (d) C, (e) Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Ru, Rh, Pd, Ag, Pt or Au and carbon.

WO 2004/091775 A3 (01/20/05) ExxonMobil Research and Engineering Company
Mauldin, C. H.; Burns, L. F.
THE PREPARATION OF TITANIA AND COBALT ALUMINATE CATALYST SUPPORTS AND THEIR USE IN FISCHER-TROPSCH SYNTHESIS

A2 published (10/28/04)

WO 2004/058633 A3 (12/23/04) Honda Giken Kogyo Kabushiki Kaisha, Symyx Technologies, Inc.
Hagemeyer, A.; Carhart, R. F.; Yaccato, K.; Herrmann, M.; Lesik, A.; Brooks, C. J.; Phillips, C. B.
PLATINUM-FREE RUTHENIUM-COBALT CATALYST FORMULATIONS FOR HYDROGEN GENERATION

A2 published (07/15/04)

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