Growth-step-selective incorporation of boron on the calcite surface

Ion microprobe analyses of as-grown{<10(1)over bar 4>} faces of B-doped calcite single crystals show that boron oxyanions are incorporated differentially between nonequivalent vicinal faces that compose spiral growth hillocks. The step-selective incorporation pattern for boron anions is opposite to that observed for the tetrahedral anions SO42- and SeO42-. Independent work has shown that a tetrahedrally coordinated boron species is preferentially incorporated at the surface during growth, yet the boron in the bulk calcite is predominantly trigonally coordinated. Hence, there is a change in nearest-neighbor coordination of boron at the surface during incorporation. A possible explanation for the step-selective incorporation of boron lies in a surface-site control over the mechanism or rate of this coordination change. The findings demonstrate that multiple, structurally distinct surface anion sites exist on calcite {<10(1)over bar 4>} faces, and inherent differences in these sites influence element incorporation and possibly surface kinetics. This behavior parallels the known differences for incorporation among surface cation sites and further confirms that trace and minor element partitioning is strongly affected by the structural aspects of mineral surfaces. Such site selectivity and associated effects on potential coordination changes may be intrinsic to crystal growth and impurity incorporation. Copyright (C) 1998 Elsevier Science Ltd.