The sorption mechanism of Ni(II) on pyrite (FeS2) and on arsenopyrite (FeAs
S) has been investigated at pH 10, using complementary methods for surface
characterization such as x-ray photoelectron spectroscopy (XPS), Fourier tr
ansform mass spectrometry (FTMS), high-frequency dielectric measurements an
d electrophoretic mobility measurements. At this pH, the surfaces of the mi
nerals are rapidly covered by an oxidation layer composed mainly of Fe(III)
oxides on FeS2 and Fe(III) arsenite and arsenate on FeAsS and presenting n
egative zeta potentials of -40 and -60 mV, respectively, The first step of
the interaction with Ni(II) is the formation of a hydroxylated surface comp
lex through proton exchange with the surface hydroxyl groups (drop Fe-OH),
Then, electrostatic interactions between colloidal Ni(ll) and the surface p
roduce a heterogeneous coating of an average thickness of a few nanometres,
This film inhibits significantly the oxidation by H2O2 of these two minera
ls, particularly FeAsS. Copyright (C) 1999 John Whey & Sons, Ltd.