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Properties of the Elements and Inorganic Compounds
Published in W. M. Haynes, David R. Lide, Thomas J. Bruno, CRC Handbook of Chemistry and Physics, 2016
W. M. Haynes, David R. Lide, Thomas J. Bruno
1836 Neodymium(III) chloride hexahydrate 1837 Neodymium(III) fluoride 1838 Neodymium(III) hydroxide 1839 Neodymium(III) iodide 1840 Neodymium(III) nitrate 1841 Neodymium(III) nitrate hexahydrate 1830 Neodymium nitride 1842 Neodymium(III) oxide 1843 Neodymium(III) sulfate 1844 Neodymium(III) sulfate octahydrate 1845 Neodymium(III) sulfide 1846 Neodymium(III) telluride 1847 Neodymium(III) tris(cyclopentadienyl) 1848 Neon 1849 Neptunium 1850 Neptunium(IV) oxide 1851 Nickel 1864 Nickel(II) acetate tetrahydrate 1853 Nickel aluminide (NiAl) 1865 Nickel(II) ammonium chloride hexahydrate 1866 Nickel(II) ammonium sulfate 1867 Nickel(II) ammonium sulfate hexahydrate 1854 Nickel antimonide 1868 Nickel(II) arsenate octahydrate 1855 Nickel arsenide 1856 Nickel boride (NiB) 1857 Nickel boride (Ni2B) 1858 Nickel boride (Ni3B) 1869 Nickel(II) bromide 1870 Nickel(II) bromide trihydrate 1871 Nickel(II) carbonate 1859 Nickel carbonyl [Ni(CO)4] 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 Nickel(II) chlorate hexahydrate Nickel(II) chloride Nickel(II) chloride hexahydrate Nickel(II) chromate Nickel(II) cyanide tetrahydrate Nickel(II) fluoride Nickel(II) fluoride tetrahydrate Nickel(II) hydroxide Nickel(II) hydroxide monohydrate Nickel(II) iodate Nickel(II) iodate tetrahydrate Nickel(II) iodide Nickel(II) iodide hexahydrate
Studies on the nature of salicyl hydroxamate adsorption at the surface of neodymium oxide
Published in Journal of Dispersion Science and Technology, 2019
Marc Sime, Avimanyu Das, Greer Galt, Gregory Hope, Courtney Young
Neodymium (III) oxide is a light rare earth oxide, which crystallizes in a hexagonal structure.[18] While Nd metal is primarily used for RE magnets, its oxide has a very interesting set of uses such as glass-doping, solid-state laser manufacturing, and enamel and glass coloring.[19] SHA is a primary hydroxamic acid, with the hydroxamic group being ortho to a phenol group as shown in Figure 1.[20] Like all other hydroxamates, SHA can exist in other tautomeric and isomeric forms.[21–26] Although these forms interconvert and are important to understand because protic solvents such as water help stabilize one form over the others through intermolecular hydrogen bonding, they are not examined herein but rather are investigated elsewhere.[27] However, in this paper, results from spectroscopic and thermodynamic studies are presented and compared to theoretical lattice space calculations to determine a mechanism for SHA adsorption at Nd2O3 surface.