Publication | Closed Access
Facet-dependent reductive dissolution of hematite nanoparticles by <i>Shewanella putrefaciens</i> CN-32
31
Citations
56
References
2020
Year
NanoparticlesMaterials ScienceChemical EngineeringGaseous ReductionEngineeringHematite NanoparticlesMetal NanoparticlesNanomaterialsNanotechnologyCorrosionHigher ConductivityMore Adsorption SitesNanotoxicologyPositive Redox PotentialGeochemistryChemistryMineral Processing
The hematite {001} possessed more adsorption sites, more positive redox potential, and higher conductivity than {100}, resulting that the dissimilatory iron reduction rate of hematite {001} by <italic>S. putrefaciens</italic> CN-32 was easier than that of {100}.
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