T. Seward, C. Henderson, J. Charnock
Jun 5, 2000
Citations
3
Influential Citations
63
Citations
Journal
Chemical Geology
Abstract
Abstract X-ray absorption fine structure (EXAFS) measurements on indium(III) nitrate and perchlorate solutions from 25°C to 250°C at the saturated vapour pressure indicate that the In 3+ –oxygen (water) distance remains constant at 2.14 (±0.01) A with an octahedral configuration. In 1.00 m HClO 4 solutions, the formation of the In 3+ -perchlorate ion pair, In(ClO 4 )(H 2 O) 5 2+ , was detected in which the In 3+ –chlorine (perchlorate) distance varied from 3.14 to 3.12 A with increasing temperature to 250°C. In 0.10 m HCl solutions at 25°C, octahedrally coordinated InCl n (H 2 O) 6− n 3− n (0≤ n ≤4) complexes are present in which the In 3+ –chloride and –oxygen (water) distances are 2.40 and 2.13 A, respectively. With increasing temperature to 300°C, the complex geometry becomes predominantly tetrahedral with the formation of InCl 4 − having an In 3+ –chloride distance of ∼2.37 A. In concentrated 1.00 m InCl 3 (no added HCl) solutions, indium–indium interactions (4.10 A) were also noted together with enhanced In 3+ –oxygen distance contraction (i.e., 2.18 to 2.10 A) in the temperature range from 25°C to 300°C due to the loss of two water molecules from the first shell environment, leaving a more tightly bound OH − ligand. The data demonstrate the lack of contraction of the octahedral hydration shell of the aquated In 3+ ion up to 300°C as well as the predominance of the tetrahedrally coordinated tetrachloroindium(III) species in chloride solutions at 350°C at the saturated vapour pressure. Indium chloride and hydroxy chloride complexes will play an important role in indium transport by hydrothermal fluids in the earth's crust.