Plasmonic Metamaterials for Nanochemistry and Sensing

Abstract: Conspectus Plasmonic nanostructures were initially developed for sensing and nanophotonic applications but, recently, have shown great promise in chemistry, optoelectronics, and nonlinear optics. While smooth plasmonic films, supporting surface plasmon polaritons, and individual nanostructures, featuring localized surface plasmons, are easy to fabricate and use, the assemblies of nanostructures in optical antennas and metamaterials provide many additional advantages related to the engineering of the mode struc… Show more

“…To maximise the photocatalytic activity of the heterostructures, the Au nanoparticle size was chosen to be ∼12 nm, which corresponds to the sample SiO -Au (3) , and with this architecture, the effect of Pt loading was investigated under the same conditions as above. As a control experiment, photolysis (molecular dissociation due to photon absorption) was monitored and resulted in only 3.7% degradation of MB (556-566 nm illumination at the same average power) after 4 hours ( Fig.…”

“…Article Online DOI: 10.1039/D0NA00728Ewould be expected for a pseudo-first-order reactions, indicating the need for a full description of the second-order reactions (Eqs (3,4)…”

Rational design of bimetallic photocatalysts based on plasmonically-derived hot carriers

“…To maximise the photocatalytic activity of the heterostructures, the Au nanoparticle size was chosen to be ∼12 nm, which corresponds to the sample SiO -Au (3) , and with this architecture, the effect of Pt loading was investigated under the same conditions as above. As a control experiment, photolysis (molecular dissociation due to photon absorption) was monitored and resulted in only 3.7% degradation of MB (556-566 nm illumination at the same average power) after 4 hours ( Fig.…”

“…Article Online DOI: 10.1039/D0NA00728Ewould be expected for a pseudo-first-order reactions, indicating the need for a full description of the second-order reactions (Eqs (3,4)…”

Rational design of bimetallic photocatalysts based on plasmonically-derived hot carriers

“…A decade ago, plasmon-induced chemistry emerged, and has since raised a keen interest [ 79 , 80 ]. The plasmon effect has found many applications in various fields, such as sensors [ 81 ], nanomaterials [ 82 ], optics [ 83 ], biology [ 84 ], data storage [ 85 ], and so on. Nevertheless, nowadays scientists are paying great attention to the influence of plasmon on the reaction rate in the transformation of organic molecules on the surfaces of plasmon-active nanomaterials [ 86 , 87 ].…”

New Variants of Nitroxide Mediated Polymerization

“…Harnessing the environment refractive sensitive plasmonic nanostructures, in-situ extinction spectroscopy enables identification of oxygen composition changes during OER by analyzing small spectral variations induced by the dynamics of interfacial dissolved oxygen profile at the EEIs. 29,30 By comparing synchronized plasmonic and electrochemical responses, we uncover not only a multistage of oxygen diffusion at the EEIs, but also an accumulating inhibition effect from confined mass transfer of oxygen on OER. The identification of multistage of oxygen diffusion and accumulating inhibition effect suggests that removing the freshly evolved O2 from active sites may not only accelerate the charge transfer process and but also recover catalytic sites, leading to improved OER performance.…”

In-Situ Plasmonic Tracking Oxygen Evolution Revealing Multistage Oxygen Diffusion and Accumulating Inhibition