Add to ORKGPrecise control of the topology of metal nanocrystals and appropriate modulation of the metal–semiconductor heterostructure is an important way to understand the relationship between structure and material properties for plasmon-induced solar-to-chemical energy conversion. Here, a bottom-up wet chemical approach to synthesize Au/Ni2P heterostructures via Pt-catalyzed quasi-epitaxial overgrowth of Ni on Au nanorods (NR) is presented. The structural motif of the Ni2P is controlled using the aspect ratio of the Au NR and the effective micelle concentration of the C16TAB capping agent. Highly ordered Au/Pt/Ni2P nanostructures are employed as the photoelectrocatalytic anode system for water splitting. Electrochemical and ultrafast absorption spe...
Ultrathin metal–organic framework (MOF) nanosheets with large active sites and superior catalytic pr...
© 2021 American Chemical Society. While hot carrier generation from surface plasmon decay at the sur...
Traditionally, bandgap materials are a prerequisite to photocatalysis since they can harness a reaso...
Photocatalytic assembly of heterometallic nanoarchitectures via plasmonic hot electrons is demonstra...
Harnessing surface plasmon of metal nanostructures to promote catalytic organic synthesis holds grea...
Precise control over the topology of plasmonic metal–semiconductor heteronanostructures is essential...
Visible and near-infrared (NIR) light utilization is a high-priority target for solar-to-chemical en...
Hetero-nanostructures featured with both strong plasmon absorption and high catalytic activity are b...
The conversion of light to electrical and chemical energy has the potential to provide meaningful ad...
The conversion of light to electrical and chemical energy has the potential to provide meaningful ad...
Au–Pd nanocrystals are an intriguing system to study the integrated functions of localized surface p...
AbstractHighly effective hot electron transfer is critical in plasmonic metal-semiconductor system t...
Traditionally, bandgap materials are a prerequisite to photocatalysis since they can harness a reaso...
Plasmonic photocatalysis is an emerging hot field for improving light-harvesting and promoting photo...
Artificial photosynthesis using semiconductors has been investigated for more than three decades for...
Ultrathin metal–organic framework (MOF) nanosheets with large active sites and superior catalytic pr...
© 2021 American Chemical Society. While hot carrier generation from surface plasmon decay at the sur...
Traditionally, bandgap materials are a prerequisite to photocatalysis since they can harness a reaso...
Photocatalytic assembly of heterometallic nanoarchitectures via plasmonic hot electrons is demonstra...
Harnessing surface plasmon of metal nanostructures to promote catalytic organic synthesis holds grea...
Precise control over the topology of plasmonic metal–semiconductor heteronanostructures is essential...
Visible and near-infrared (NIR) light utilization is a high-priority target for solar-to-chemical en...
Hetero-nanostructures featured with both strong plasmon absorption and high catalytic activity are b...
The conversion of light to electrical and chemical energy has the potential to provide meaningful ad...
The conversion of light to electrical and chemical energy has the potential to provide meaningful ad...
Au–Pd nanocrystals are an intriguing system to study the integrated functions of localized surface p...
AbstractHighly effective hot electron transfer is critical in plasmonic metal-semiconductor system t...
Traditionally, bandgap materials are a prerequisite to photocatalysis since they can harness a reaso...
Plasmonic photocatalysis is an emerging hot field for improving light-harvesting and promoting photo...
Artificial photosynthesis using semiconductors has been investigated for more than three decades for...
Ultrathin metal–organic framework (MOF) nanosheets with large active sites and superior catalytic pr...
© 2021 American Chemical Society. While hot carrier generation from surface plasmon decay at the sur...
Traditionally, bandgap materials are a prerequisite to photocatalysis since they can harness a reaso...