1
Sujeet Kumar, Craig R Horne: Lithium metal oxides. NanaGram Corporation, Peter S Dardi, Patterson Thuente Skaar & Christensen P A, June 15, 2004: US06749648 (66 worldwide citation)

Lithium metal oxide particles have been produced having average diameters less than about 100 nm. Composite metal oxides of particular interest include, for example, lithium cobalt oxide, lithium nickel oxide, lithium titanium oxides and derivatives thereof. These nanoparticles composite metal oxide ...


2
Nguyen Q Minh, Craig R Horne: Apparatus and method of fabricating a monolithic solid oxide fuel cell. Allied Signal, David B Abel, Terry L Miller, Robert A Walsh, November 10, 1992: US05162167 (56 worldwide citation)

The invention details a two-step densifying process, method, and apparatus for making a solid oxide ceramic fuel cell. According to the invention, a limited number of anode-electrolyte-cathode cells separated by a single or trilayer interconnect are formed and densified. Subsequently, a plurality of ...


3
Nguyen Q Minh, Craig R Horne: Method of fabricating a monolithic solid oxide fuel cell. AlliedSignal Aerospace, David B Abel, Hugh P Gortler, Robert A Walsh, March 1, 1994: US05290642 (51 worldwide citation)

In a two-step densifying process of making a monolithic solid oxide fuel cell, a limited number of anode-electrolyte-cathode cells separated by an interconnect layer are formed and partially densified. Subsequently, the partially densified cells are stacked and further densified to form a monolithic ...


4
Xiangxin Bi, Nobuyuki Kambe, Craig R Horne, James T Gardner, Ronald J Mosso, Shivkumar Chiruvolu, Sujeet Kumar, William E McGovern, Pierre J DeMascarel, Robert B Lynch: Nanoparticle-based power coatings and corresponding structures. NanoGram Corporation, Dardi & Associates PLLC, Peter S Dardi, June 10, 2008: US07384680 (50 worldwide citation)

Methods are described that have the capability of producing submicron/nanoscale particles, in some embodiments dispersible, at high production rates. In some embodiments, the methods result in the production of particles with an average diameter less than about 75 nanometers that are produced at a r ...


5
Craig R Horne, Pierre J DeMascarel, Christian C Honeker, Benjamin Chaloner Gill, Herman A Lopez, Xiangxin Bi, Ronald J Mosso, William E McGovern, James T Gardner, Sujeet Kumar, James A Gilliam, Vince Pham, Eric Euvrard, Shivkumar Chiruvolu, Jesse Jur: Optical materials and optical devices. NeoPhotonics Corporation, Patterson Thuente Skaar & Christensen P A, Peter S Dardi, February 1, 2005: US06849334 (39 worldwide citation)

Nanoscale particles, particle coatings/particle arrays and corresponding consolidated materials are described based on an ability to vary the composition involving a wide range of metal and/or metalloid elements and corresponding compositions. In particular, metalloid oxides and metal-metalloid comp ...


6
Nguyen Q Minh, Craig R Horne, James V Guiheen: Preparation of devices that include a thin ceramic layer. AlliedSignal, Robert A Walsh, November 29, 1994: US05368667 (37 worldwide citation)

A device having a thin ceramic layer therein, is made by preparing a mixture of ceramic particles, a binder, and a plasticizer, and forming the mixture into a ceramic layer. A second layer is placed adjacent to the ceramic layer to form a composite layered structure. The thickness of the composite l ...


7
Craig R Horne, Kim Kinoshita, Darren B Hickey: Redox flow battery system for distributed energy storage. EnerVault Corporation, The Marbury Law Group PLLC, October 26, 2010: US07820321 (31 worldwide citation)

A large stack redox flow battery system provides a solution to the energy storage challenge of many types of renewable energy systems. Independent reaction cells arranged in a cascade configuration are configured according to state of charge conditions expected in each cell. The large stack redox fl ...


8
Craig R Horne, Sujeet Kumar, James P Buckley, Xiangxin Bi: Medal vanadium oxide particles. NanoGram Corporation, Peter S Dardi, Westman Champlin & Kelly, May 1, 2001: US06225007 (29 worldwide citation)

Metal vanadium oxide particles have been produced with an average diameter less than about 500 nm. The particles are produced from nanocrystalline vanadium oxide particles. Silver vanadium oxide particles, for example, can be formed by the heat treatment of a mixture of nanoscale vanadium oxide and ...


9
Craig R Horne, Sujeet Kumar, Hariklia Dris Reitz, James T Gardner, Xiangxin Bi: Lithium manganese oxides and batteries. NanoGram Corporation, Peter S Dardi, Westman Champlin & Kelly P A, October 24, 2000: US06136287 (29 worldwide citation)

Lithium manganese oxide particles have been produced with an average diameter less than about 250 nm. The particles have a high degree of uniformity. The particles are formed by the heat treatment of nanoparticles of manganese oxide. The lithium manganese oxide particles are useful as active materia ...


10
Sujeet Kumar, Hariklia Dris Reitz, Craig R Horne, James T Gardner, Ronald J Mosso, Xiangxin Bi: Methods for producing lithium metal oxide particles. NanoGram Corporation, Peter S Dardi, David Kleinsmith, Patterson Thuente Skaar & Christensen P A, November 19, 2002: US06482374 (18 worldwide citation)

Lithium manganese oxide particles have been produced with an average diameter less than about 250 nm. The particles have a high degree of uniformity. The particles can be formed by the heat treatment of nanoparticles of manganese oxide. Alternatively, crystalline lithium manganese oxide particles ca ...



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