Nanoplasmonic amplification in microfluidics enables accelerated colorimetric quantification of nucleic acid biomarkers from pathogens
Deployment of nucleic acid amplification assays for diagnosing pathogens in point-of-care
settings is a challenge due to lengthy preparatory steps. We present a molecular diagnostic …
settings is a challenge due to lengthy preparatory steps. We present a molecular diagnostic …
Carbon Dots Mediated In Situ Confined Growth of Bi Clusters on g‐C3N4 Nanomeshes for Boosting Plasma‐Assisted Photoreduction of CO2
Synthesis of high‐efficiency, cost‐effective, and stable photocatalysts has long been a
priority for sustainable photocatalytic CO2 reduction reactions (CRR), given its importance in …
priority for sustainable photocatalytic CO2 reduction reactions (CRR), given its importance in …
Plasmon-assisted ammonia electrosynthesis
Ammonia is a promising liquid-phase carrier for the storage, transport, and deployment of
carbon-free energy. However, the realization of an ammonia economy is predicated on the …
carbon-free energy. However, the realization of an ammonia economy is predicated on the …
Plasmonic metal nanostructures: concepts, challenges and opportunities in photo-mediated chemical transformations
Plasmonic metal nanostructures (PMNs) are characterized by the plasmon oscillation of
conduction band electron in response to external radiation, enabling strong light absorption …
conduction band electron in response to external radiation, enabling strong light absorption …
Plasmonic‐assisted Electrocatalysis for CO2 Reduction Reaction
Integrating plasmonic features as an emerging strategy for enhancing electrocatalysis for the
carbon dioxide reduction reaction (CO2RR). The key parameters responsible for the …
carbon dioxide reduction reaction (CO2RR). The key parameters responsible for the …
Enhanced electrochemistry of single plasmonic nanoparticles
The structure–function relationship of plasmon‐enhanced electrochemistry (PEEC) is of
great importance for the design of efficient PEEC catalysts, but is rarely investigated at single …
great importance for the design of efficient PEEC catalysts, but is rarely investigated at single …
Nano‐Impact Single‐Entity Electrochemistry Enables Plasmon‐Enhanced Electrocatalysis
Abstract Plasmon‐enhanced electrocatalysis (PEEC), based on a combination of localized
surface plasmon resonance excitation and an electrochemical bias applied to a plasmonic …
surface plasmon resonance excitation and an electrochemical bias applied to a plasmonic …
Two-dimensional palladium nanosheet intercalated with gold nanoparticles for plasmon-enhanced electrocatalysis
Plasmon-enhanced electrocatalysis holds great promise for converting solar energy into
chemical energy by efficiently harvesting photons for electrocatalytic reactions. Here, we …
chemical energy by efficiently harvesting photons for electrocatalytic reactions. Here, we …
Plasmonics for environmental remediation and pollutant degradation
Minimizing environmental pollution and its health effects requires increasingly complex and
sophisticated approaches to pollutant degradation. Plasmonic nanoparticles can enhance …
sophisticated approaches to pollutant degradation. Plasmonic nanoparticles can enhance …
From nanoparticle ensembles to single nanoparticles: Techniques for the investigation of plasmon enhanced electrochemistry
Plasmon enhanced electrochemistry (PEEC), where specific electrochemical reactions are
promoted due to the reduced energy barrier of the reaction processes by the light excited …
promoted due to the reduced energy barrier of the reaction processes by the light excited …