Journal of Crystal Growth, Vol.401, 275-278, 2014
Redox process catalysed by growing crystal strengite, FePO4,2H(2)O, crystallizing from solution with iron(II) and hydroxylamine
In an attempt to grow pure crystals of the iron(H) phosphate vivianite, Fe-3(PO4)(2),8H(2)O, from a solution of Mohr's salt, Fe(NH4)(2)(SO4)(2),6H(2)O, added to a solution of ammonium phosphate, hydroxylammonium chloride, NH3OHCI, was added to the iron(ll) stock solution to eliminate oxidation of iron(H) by oxygen from the air. However, the effect turned out to be the opposite of the expected: whereas hydroxylamine reduces iron(Ill) in bulk solution, it acted as a strong oxidant in the presence of growing iron phosphate crystals, causing the crystallization of the iron(Ill) phosphate strengite, FePO4,2H(2)O, as the only solid phase. Evidently the crystal surface catalyses oxidation of iron(II) by hydroxylamine. The usual composite kinetics of spiral growth and surface nucleation was found. The surface-nucleation part yielded edge free energy A in the range 12-45 Om, virtually independent of temperature and in the range typical for phosphates of divalent metals. The scatter of values for A presumably arises from contributions from different crystal forms to the overall growth rate. The low mean value points to strong adsorption of iron (II), which is subsequently oxidized at the crystal surface, forming strengite. The state of the system did not tend to thermodynamic equilibrium, but to a metastable state, presumably controlled by the iron(ll) rich surface layer of the crystal. In addition to crystal growth, it was possible to measure nucleation kinetics by light scattering (turbiclimetry). A point of transition from heterogeneous to homogeneous nucleation was found, and from the results for the homogeneous domain a rather precise value of crystal surface free energy gamma=55 mi/m(2) was found. This is a relatively low value as well indicating that the redox process plays a role already at the nucleation stage. (C) 2013 Elsevier B.V. All rights reserved