Structural transformation of sulfidized zerovalent iron and its impact on long-term reactivity

Abstract: This study elucidates the structural changes of sulfidized zerovalent iron (S-nZVI) in anoxic groundwater, presents a compelling evidence on the structural robustness of the material and explains how S-nZVI long-term reactivity is achieved.

“…The XPS S 2p spectra show only a slight shift toward more oxidized forms between freshly synthesized and reacted particles (i.e., a decrease in the S 2– and an increase in the S 0 content) ( Figure 5 B). This agrees with a recent study where the FeS shell remained intact even after 180 days of particle aging in artificial groundwater, 49 while partial disruption of FeS shell after 60 days of aging was observed in our previous study. 48 Apparently, FeS shell is resistant to chemical oxidation but is prone to mechanical damage.…”

“…While the formation of fresh crystalline mackinawite is favored over amorphous FeS (ppt) thermodynamically (i.e., mackinawite has a higher saturation index), available laboratory data from FeS precipitation experiments and field data from a reducing lake and estuarine and marine sediments indicate that the formation of crystalline mackinawite is inhibited, and it is formed only later by the recrystallization of amorphous and poorly crystalline FeS phases. 49 , 55 , 56 , 60 , 61 In this study, crystalline mackinawite has been observed in the XRD patterns of S-nZVI particles with high sulfur doses after the reactivity experiments (see section 3.4 ), corroborating the gradual crystallization of iron sulfides in time.…”

“…This is comparable with a previous study where S-nZVI particles with a theoretical S/Fe mass ratio 0.13 developed a 5 nm thick FeS shell. 49 Although the shell thickness was not perfectly uniform for all particles of the same type, its mean value was associated with an increasing sulfide dose.…”

“…The existence of an optimal S/Fe ratio for TCE removal was previously observed. 22 , 49 The kinetics of TCE reduction was well described by a first-order rate law. 20 The observed pseudo-first-order rate constant ( k obs ) of the best performing S-nZVI was approximately 12-fold higher than for the untreated nZVI.…”

“…The characteristics of the sulfide shell agree with previous studies that identified amorphous iron sulfide sheets with a mackinawite-like structure as the primary FeS precipitates. 27 , 49 , 55 , 56 …”

Core–Shell Fe/FeS Nanoparticles with Controlled Shell Thickness for Enhanced Trichloroethylene Removal

“…The XPS S 2p spectra show only a slight shift toward more oxidized forms between freshly synthesized and reacted particles (i.e., a decrease in the S 2– and an increase in the S 0 content) ( Figure 5 B). This agrees with a recent study where the FeS shell remained intact even after 180 days of particle aging in artificial groundwater, 49 while partial disruption of FeS shell after 60 days of aging was observed in our previous study. 48 Apparently, FeS shell is resistant to chemical oxidation but is prone to mechanical damage.…”

“…While the formation of fresh crystalline mackinawite is favored over amorphous FeS (ppt) thermodynamically (i.e., mackinawite has a higher saturation index), available laboratory data from FeS precipitation experiments and field data from a reducing lake and estuarine and marine sediments indicate that the formation of crystalline mackinawite is inhibited, and it is formed only later by the recrystallization of amorphous and poorly crystalline FeS phases. 49 , 55 , 56 , 60 , 61 In this study, crystalline mackinawite has been observed in the XRD patterns of S-nZVI particles with high sulfur doses after the reactivity experiments (see section 3.4 ), corroborating the gradual crystallization of iron sulfides in time.…”

“…This is comparable with a previous study where S-nZVI particles with a theoretical S/Fe mass ratio 0.13 developed a 5 nm thick FeS shell. 49 Although the shell thickness was not perfectly uniform for all particles of the same type, its mean value was associated with an increasing sulfide dose.…”

“…The existence of an optimal S/Fe ratio for TCE removal was previously observed. 22 , 49 The kinetics of TCE reduction was well described by a first-order rate law. 20 The observed pseudo-first-order rate constant ( k obs ) of the best performing S-nZVI was approximately 12-fold higher than for the untreated nZVI.…”

“…The characteristics of the sulfide shell agree with previous studies that identified amorphous iron sulfide sheets with a mackinawite-like structure as the primary FeS precipitates. 27 , 49 , 55 , 56 …”

Core–Shell Fe/FeS Nanoparticles with Controlled Shell Thickness for Enhanced Trichloroethylene Removal

Mechanism of Chemical Reduction of Cr(VI)

A model for the removal of Cr(VI) in water by nanoscale zero-valent iron: quantifying the reaction process and calculating the electron efficiency