Conditions of the formation of rare earth phosphates and the colors of their powders.
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概要
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Rare earth oxides, such as La<SUB>2</SUB>O<SUB>3</SUB>, Pr<SUB>6</SUB>O<SUB>11</SUB>, Nd<SUB>2</SUB>O<SUB>3</SUB>, and Sm<SUB>2</SUB>O<SUB>3</SUB>, can react with phosphoric acid to give four kinds of rare earth phosphates (orthophosphates LnPO<SUB>4</SUB>·0.5H<SUB>2</SUB>O and LnPO<SUB>4</SUB>, <I>catena</I>-polyphosphates Ln(PO<SUB>3</SUB>)<SUB>3</SUB> and ultraphosphates LnP<SUB>5</SUB>O<SUB>14</SUB>), while in the reaction of CeO<SUB>2</SUB> with phosphoric acid there are formed five kinds of phosphates (orthophosphate CePO<SUB>4</SUB>, pyrophosphate CeP<SUB>2</SUB>O<SUB>7</SUB>, two types of <I>catena</I>-polyphosphate Ce(PO<SUB>3</SUB>)<SUB>3</SUB> and Ce(PO<SUB>3</SUB>)<SUB>4</SUB>, and ultraphosphate CeP<SUB>5</SUB>O<SUB>14</SUB>). The formation of these products in the CeO<SUB>2</SUB>–H<SUB>3</SUB>PO<SUB>4</SUB> system are notably different from these in other systems, showing that cerium(III) phosphates as well as cerium(IV) phosphates can exist stably. It can be seen from the X-ray diffraction patterns that each corresponding phosphate (ortho, catena-Qoly, and ultraphosphates) of lanthanum, cerium(III), praseodymium, neodymium, and samarium is isomorphous. This may be caused by the facts that the valencies of all these metals are +3 and that their ionic radii are almost equal to one another (La(III) 1.06 Å–Sm(III) 0.96 Å). The conditions of the formation of each phosphate were investigated, and the colors of the crystals, the densities, and the infrared absorption spectra of various rare earth phosphates were also examined.
- 公益社団法人 日本化学会の論文
著者
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TSUHAKO Mitsutomo
Kobe Pharmaceutical University
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MOTOOKA Itaru
Department of Chemical Science and Engineering, Faculty of Engineering, Kobe University
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Motooka Itaru
Department of Chemistry, Faculty of General Education, Kobe University
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Matsuo Tsuneo
Kobe Women's College of Pharmacy
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Kobayashi Masamitsu
Department of Chemistry, Kobe University
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Ikeuchi Sayuri
Kobe Women's College of Pharmacy
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Kobayashi Masamitsu
Department of Chemistry, Faculty of General Education, Kobe University
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Matsuo Tsuneo
Kobe Women's College of Pharmacy
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Ikeuchi Sayuri
Kobe Women's College of Pharmacy
関連論文
- Structure and Organic Gas-Adsorption Properties of Some Polyamine Intercalated α-Zirconium Phosphates
- Preparation and Chemical Properties of a Novel Layered Cerium(IV) Phosphate
- Intercalation of Methylene Blue into Layered Phosphate in the Presence of Butylamine and Function of Alkylamine in the Intercalation Reaction
- Intercalation of Quaternary Ammonium Ions into γ-Titanium Phosphate
- Phosphonylation of biomolecules with inorganic diphosphonate. II. Phosphonylation of phosphate groups on nucleoside 5'-monophosphates, deoxynucleoside 5'-monophosphates, and sugar phosphates.
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- The thermal decomposition of ammonium zinc trihydrogenbis-(phosphate) monohydrate (NH4)ZnH3(PO4)2H2O.
- Separation and quantification for various phosphorus oxoacids by isotachophoresis.
- Effect of Water Vapor on the Formation of Lithium cyclo-Hexaphosphate.
- Mechanochemical changes of neodymium phosphates by grinding.
- Thermal Behavior of Alkaline-Earth Metal cyclo-Tetraphosphates.
- The reaction of cyclo-triphosphate with ethanolamines.
- The reaction of cyclo-triphosphate with ethylenediamine.
- Mechanochemical decomposition of dipotassium peroxodisulfate by dry grinding.
- The reaction of cyclo-triphosphate with L-.ALPHA.- or .BETA.-alanine.
- The reaction of cyclo-triphosphate with L-valine.
- Phosphorylation of nucleosides with sodium cyclo-triphosphate.
- Studies of the Preparation and Physical Properties of Multivalent Metal Condensed Phosphates. Part XI. The Preparation of Various Aluminum Phosphates and Their Thermal Transformation
- Conditions of the formation of rare earth phosphates and the colors of their powders.
- Thermal Decomposition of Barium Amidotriphosphate Ba2P3O9NH23.5H2O.
- Thermal Decomposition of Ammonium Amidotriphosphate (NH4)4P3O9NH2H2O.
- Region of formation of iron(III) hydrogen orthophosphate and structural changes in humid atmospheres.
- The reaction of cyclo-tetraphosphate with L-valine.
- Effect of Water Vapor on the Transformation of cyclo-Tetraphosphate.