1
Raymond J Wong: Zirconium phosphate and method of making the same. Renal Solutions, Kilyk & Bowersox P L L C, November 16, 2004: US06818196 (70 worldwide citation)

A method of making sodium zirconium carbonate is described which involves forming a mixture of zirconium oxychloride with soda ash and then heating at a sufficient temperature and for a sufficient time to form the sodium zirconium carbonate. Subsequent washing and filtration steps can further form p ...


2
Raymond Wong: Method of synthesizing zirconium phosphate particles. Renal Solutions, Kilyk & Bowersox P L L C, July 28, 2009: US07566432 (60 worldwide citation)

Zirconium phosphate particles are synthesized by providing a solution of zirconium oxychloride in an aqueous solvent, adding at least one oxygen-containing additive to the solution, the oxygen-containing additive being selected to form a complex with zirconium ions in the solution of zirconium oxych ...


3
Kay Andreas: Lithium manganese phosphate/carbon nanocomposites as cathode active materials for secondary lithium batteries. High Power Lithium, Kay Andreas, Roland André, December 3, 2009: WO/2009/144600 (52 worldwide citation)

The invention relates to a lithium manganese phosphate/carbon nanocomposite as cathode material for rechargeable electrochemical cells with the general formula LixMnyM1-y(PO4)z/C where M is at least one other metal such as Fe, Ni, Co, Cr, V, Mg, Ca, Al, B, Zn, Cu, Nb, Ti, Zr, La, Ce, Y, x = 0.8-1.1, ...


4
Jeremy Barker, M Yazid Saidi, Jeffrey Swoyer: Lithium-containing materials. Valence Technology, Cynthia S Kovacevic, Roger A Williams, Michael D Ross, April 6, 2004: US06716372 (44 worldwide citation)

The invention provides novel lithium-mixed metal materials which, upon electrochemical interaction, release lithium ions, and are capable of reversibly cycling lithium ions. The invention provides a rechargeable lithium battery which comprises an electrode formed from the novel lithium-mixed metal m ...


5
Raymond J Wong: Zirconium basic carbonate and methods of making the same. Renal Solutions, Kilyk & Bowersox P L L C, September 5, 2006: US07101519 (43 worldwide citation)

Methods of making zirconium basic carbonate are further described which involve titrating an aqueous slurry of sodium zirconium carbonate to a pH of from about 3.5 to about 4.0 with an acidic agent wherein the sodium zirconium carbonate has a moisture content of from about 15% to about 25% LOD in so ...


6
Raymond J Wong: Method of synthesizing zirconium phosphate particles. Renal Solutions, Kilyk & Bowersox P L L C, June 15, 2010: US07736507 (35 worldwide citation)

Zirconium phosphate particles are synthesized by providing a solution of zirconium oxychloride in an aqueous solvent, adding at least one oxygen-containing additive to the solution, the oxygen-containing additive being selected to form a complex with zirconium ions in the solution of zirconium oxych ...


7
Horst Dieter Wasel Nielen, Renate Adrian, Herbert Panter, Gero Heymer, Alexander Maurer, Raban von Schenck: Production of anticorrosive pigments containing phosphorus. Hoechst Aktiengesellschaft, Connolly and Hutz, October 13, 1981: US04294808 (32 worldwide citation)

The invention relates to a process for making phosphorus-containing anticorrosive pigments having a size of at most 20 microns by reacting one or more compounds of magnesium, calcium, strontium, barium, zinc, aluminum, iron, chromium or manganese with an oxygen acid of phosphorus or its alkali metal ...


8
Rustum Roy, Jaime Alamo: Mirror substrate of atomically substituted Na Zr.sub.2 PO.sub.12 low expansion ceramic material. The Perkin Elmer Corporation, Herbert S Ingham, Thomas P Murphy, Edwin T Grimes, May 6, 1986: US04587172 (23 worldwide citation)

A low expansion ceramic material has a composition represented by the molecular formula i (Na) j (Zr.sub.2-z Na.sub.4z) k (P.sub.3-x Na.sub.x Si.sub.x)O.sub.12 in which the molar proportions i, j and k are each within the range from about 0.9 to about 1.1, and i+j+k equal 3; and, for molar proportio ...


9
Takai Yasushi, Kimura Yuji, Sakai Shigeru: Non-stoichiometric ytterbium phosphate powder of low infrared reflectivity. Shinetsu Chemical Co, March 18, 1998: EP0829454-A1 (18 worldwide citation)

Proposed is a powder of ytterbium phosphate having a non-stoichiometric phosphorus to ytterbium molar ratio of 1.08 to 2.0 and having a specified average particle diameter and specified diameter of the crystallites forming the particles. The powder is useful as an infrared-absorbing pigment in a pri ...


10
Li Guohua, Yamada Atsuo, Azuma Hidetoc: Method for manufacturing active material of positive plate and method for manufacturing nonaqueous electrolyte secondary cell. Sony, April 25, 2001: EP1094532-A1 (16 worldwide citation)

In a method for producing a positive electrode active material including a mixing step of mixing a plurality of substances to give a precursor and a sintering step of sintering and reacting said precursor obtained by said mixing step, in which these substances prove a starting material for synthesis ...