Catalytically Active Au Layers Grown on Pd Nanoparticles for Direct Synthesis of H2O2: Lattice Strain and Charge-Transfer Perspective Analyses
Despite its effectiveness in improving the properties of materials, strain engineering has not
yet been employed to endow catalytic characteristics to apparently nonactive metals. This
limitation can be overcome by controlling simultaneously lattice strains and charge transfer
originated from the epitaxially prepared bimetallic core–shell structure. Here, we report the
experimental results of the direct H2O2 synthesis enabled by a strained Au layer grown on
Pd nanoparticles. This system can benefit the individual catalytic properties of each involved …
yet been employed to endow catalytic characteristics to apparently nonactive metals. This
limitation can be overcome by controlling simultaneously lattice strains and charge transfer
originated from the epitaxially prepared bimetallic core–shell structure. Here, we report the
experimental results of the direct H2O2 synthesis enabled by a strained Au layer grown on
Pd nanoparticles. This system can benefit the individual catalytic properties of each involved …
Catalytically Active Au Layers Grown on Pd Nanoparticles for Direct Synthesis of H2O2: Lattice Strain and Charge-Transfer Perspective Analyses
Despite its effectiveness in improving the properties of materials, strain engineering has not
yet been employed to endow catalytic characteristics to apparently nonactive metals. This
limitation can be overcome by controlling simultaneously lattice strains and charge transfer
originated from the epitaxially prepared bimetallic core-shell structure. Here, we report the
experimental results of the direct H2O2 synthesis enabled by a strained Au layer grown on
Pd nanoparticles. This system can benefit the individual catalytic properties of each involved …
yet been employed to endow catalytic characteristics to apparently nonactive metals. This
limitation can be overcome by controlling simultaneously lattice strains and charge transfer
originated from the epitaxially prepared bimetallic core-shell structure. Here, we report the
experimental results of the direct H2O2 synthesis enabled by a strained Au layer grown on
Pd nanoparticles. This system can benefit the individual catalytic properties of each involved …
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