P. Violante scite author profile

Abstract--Chelating organic acids hampered the hydrolytic reactions of A1 and affected the nature of the crystalline aluminum hydroxides. Chemical composition, structure, size, nature of functional groups, and concentration of each organic anion, as well as the pH of the system, controlled the rate of AI(OH)3 crystallization. The order of effectiveness of the various acids was: glutaric < succinic = phthalic < glycine < malonic < glutamic < aspartic < oxalic < salicylic = malic < citric < tartaric. An increase in the stability of complexes formed between the organic ligands and AI decreased the rate of crystallization and changed the final aluminous products from bayerite to nordstrandite and/or gibbsite and then to pseudoboehmite and/or amorphous material. In the presence of anions with a great affinity for AI, particularly at pH equal to or less than 9.0, the reaction products were commonly poorly crystalline or structurally distorted. In the range of pH 8.0 to 10.0 moderately or strongly chelating anions acted to retard or prevent olation and facilitated the formation of stable pseudoboehmite or X-ray-amorphous products. The stronger the chelating power or the higher the concentration of organic anions, the easier was the formation of pseudoboehmite or amorphous material.

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Tubular and spheroidal halloysite in pyroclastic deposits in the area of the Roccamonfina volcano (Southern Italy)

Adamo

Violante

Wilson³

2001

Geoderma

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Heavy metal contamination of the soils used for stocking raw materials in the former ILVA iron–steel industrial plant of Bagnoli (southern Italy)

Adamo

Arienzo

Bianco

et al. 2002

Science of The Total Environment

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P. Violante

Spatial distribution of heavy metals in urban soils of Naples city (Italy)

Trace element accumulation by moss and lichen exposed in bags in the city of Naples (Italy)

Influence of pH, Concentration, and Chelating Power of Organic Anions on the Synthesis of Aluminum Hydroxides and Oxyhydroxides

Tubular and spheroidal halloysite in pyroclastic deposits in the area of the Roccamonfina volcano (Southern Italy)

Heavy metal contamination of the soils used for stocking raw materials in the former ILVA iron–steel industrial plant of Bagnoli (southern Italy)

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