Molecular junctions are building blocks for constructing future nanoelectronic devices that
enable the investigation of a broad range of electronic transport properties within nanoscale …

Plasmonic gap nanostructures (PGNs) have been extensively investigated mainly because
of their strongly enhanced optical responses, which stem from the high intensity of the …

Plexcitonic strong coupling between a plasmon–polariton and a quantum emitter empowers
ultrafast quantum manipulations in the nanoscale under ambient conditions. The main body …

Efficient generation of anti-Stokes emission within nanometric volumes enables the design
of ultracompact, miniaturized photonic devices for a host of applications. Many …

Strong coupling is a distinct light–matter interaction regime, in which the interaction is
manifested in coherent oscillations of energy between matter and a photonic subsystem …

Plasmonic self-assembled nanocavities are ideal platforms for extreme light localization as
they deliver mode volumes of< 50 nm3. Here we show that high-order plasmonic modes …

Transient bonds between molecules and metal surfaces underpin catalysis, bio/molecular
sensing, molecular electronics, and electrochemistry. Techniques aiming to characterize …

Hypothesis In view of the photothermal effect of polydopamine (PDA) nanoparticles and their
internal D-π-D structures during assembly, the two-photon excited properties of PDA were …

Recent experimental advances in strongly coupled light-matter systems have sparked the
development of general ab initio methods capable of describing interacting light-matter …

Plasmonic nanocavities exhibit exceptional capabilities in visualizing the internal structure of
a single molecule at sub-nanometer resolution. Among these, an easily manufacturable …