Tf. Rozan et al., Quantifying elemental sulfur (S-0), bisulfide (HS-) and polysulfides (S-x(2-)) using a voltammetric method, ANALYT CHIM, 415(1-2), 2000, pp. 175-184
Free polysulfides (S-4(2-)), elemental sulfur (S-0) and bisulfide (HS-) can
be separated at discrete peak potentials using either cyclic voltammetry (
CV) or linear sweep voltammetry (LS) with extremely fast scan rates. A scan
rate of 1000 mV/s was found to be optimal for peak separation. Differences
in the nucleophilic nature of S-x(2-) versus HS- and the electrochemical i
rreversibility of the S-0 in S-x(2-) allowed for peak separation. For 10 mu
M solutions at a scan rate of 1000 mV/s, peak potentials were found to occ
ur at -0.66 V for HS- and -0.69 V for S-0. S-4(2-) was found to give two di
screte peaks at -0.70 and -0.81 V, representing a two step mechanism. In mi
xed laboratory standards, all the three sulfur species were uniquely identi
fied. Flectrochemical analyses revealed similar peak separation patterns un
der different environmental conditions, ranging from estuarine pore waters
to hydrothermal vents. In estuarine sediments, the sulfur speciation was fo
und to change throughout a core profile, with S-0 dominant in the top layer
s (0-6 cm), S-x(2-) dominant in the transition zone (6-7 cm), and HS- domin
ant in the deeper sediment (>7 cm). In hydrothermal vent waters, different
regions were observed to have different sulfur speciation. In diffuse flow
regions away from chimneys containing trace O-2 concentrations, polysulfide
s, elemental sulfur and bisulfide were discretely identified. (C) 2000 Else
vier Science B.V. All rights reserved.