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Iron oxide, polymorphs properties

History. Braun and Tschemak [23] obtained phthalocyanine for the first time in 1907 as a byproduct of the preparation of o-cyanobenzamide from phthalimide and acetic anhydride. However, this discovery was of no special interest at the time. In 1927, de Diesbach and von der Weid prepared CuPc in 23 % yield by treating o-dibromobenzene with copper cyanide in pyridine [24], Instead of the colorless dinitriles, they obtained deep blue CuPc and observed the exceptional stability of their product to sulfuric acid, alkalis, and heat. The third observation of a phthalocyanine was made at Scottish Dyes, in 1929 [25], During the preparation of phthalimide from phthalic anhydride and ammonia in an enamel vessel, a greenish blue impurity appeared. Dunsworth and Drescher carried out a preliminary examination of the compound, which was analyzed as an iron complex. It was formed in a chipped region of the enamel with iron from the vessel. Further experiments yielded FePc, CuPc, and NiPc. It was soon realized that these products could be used as pigments or textile colorants. Linstead et al. at the University of London discovered the structure of phthalocyanines and developed improved synthetic methods for several metal phthalocyanines from 1929 to 1934 [1-11]. The important CuPc could not be protected by a patent, because it had been described earlier in the literature [23], Based on Linstead s work the structure of phthalocyanines was confirmed by several physicochemical measurements [26-32], Methods such as X-ray diffraction or electron microscopy verified the planarity of this macrocyclic system. Properties such as polymorphism, absorption spectra, magnetic and catalytic characteristics, oxidation and reduc-... [Pg.69]

Three polymorphous crystalline ferric hydroxides, a-, /k and y-FeOOH are known as the major components of naturally occurring oxidized products of iron, which, together with Fe3Oj. and various amounts of amorphous hydrated oxides, constitute rust on steel surfaces. The properties of each component and the state of the composite formed from the small crystal... [Pg.545]

POLYMORPHS OF IRON(III) OXIDE, THEIR CRYSTAL STRUCTURES, MAGNETIC PROPERTIES, AND POLYMORPHOUS PHASE TRANSFORMATIONS... [Pg.352]

See other pages where Iron oxide, polymorphs properties is mentioned: [Pg.321]    [Pg.321]    [Pg.216]    [Pg.352]    [Pg.353]    [Pg.353]    [Pg.365]    [Pg.117]    [Pg.1980]    [Pg.494]    [Pg.1979]    [Pg.374]    [Pg.46]   
See also in sourсe #XX -- [ Pg.352 ]



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Iron polymorphs

Iron, properties

Oxidation properties

Polymorphism iron oxides

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