Efficient collection and safe disposal of toxic metals ions from aqueous solutions is critical for applications in environmental remediation. Although extensive efforts have been devoted to the synthesis of functional TiO materials, photocatalytic reduction (photoreduction) of aqueous metal ions into solid metals remains a challenge. We designed a TiO nanoparticle-decorated layered titanate (KTiO) material that retained the cation exchange ability of KTiO but also possessed the enhanced charge separation efficiency of KTiO. Combining cation exchange with enhanced charge separation efficiency results in a heterostructured material with remarkably high activity for the photoreduction of metal ions. Initially we demonstrated how the photocatalyst can efficiently reduce aqueous Ni cations, whereas the benchmark TiO-based P25 catalyst showed little to no activity. The resulting Ni-deposited heterostructure can then be used as a catalyst for visible light-induced photocatalytic H evolution in water.
In contrast to usual iron oxides, atomically-thin hematite nanoplates synthesized within a layered silicate show significantly high photocatalytic activity without any co-catalysts.
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