Infrared spectroscopy is a powerful tool widely used in research and industry for a label-free
and unambiguous identification of molecular species. Inconveniently, its application to …

The terahertz (THz) spectrum is the focus of basic research in solid‐state physics, chemistry,
and materials science as well as applications in next‐generation communications, far …

Infrared (IR) plasmonic nanoantennas (PNAs) are powerful tools to identify molecules by the
IR fingerprint absorption from plasmon-molecules interaction. However, the sensitivity and …

Predetermined and selective placement of nanoparticles onto large-area substrates with
nanometre-scale precision is essential to harness the unique properties of nanoparticle …

Tailoring light‐matter interactions via plasmonic nanoantennas (PNAs) has emerged as a
breakthrough technology for spectroscopic applications. The detuning between molecular …

Simultaneous on‐chip sensing of multiple greenhouse gases in a complex gas environment
is highly desirable in industry, agriculture, and meteorology, but remains challenging due to …

We demonstrate the synthesis of Au nanostar dimers with tunable interparticle gap and
controlled stoichiometry assembled on DNA origami. Au nanostars with uniform and sharp …

In this work, we present an infrared plasmonic biosensor for chemical-specific detection and
monitoring of biomimetic lipid membranes in a label-free and real-time fashion. Lipid …

Optofluidic sensors integrate photonics with micro/nanofluidics to realize compact devices
for the label‐free detection of molecules and the real‐time monitoring of dynamic surface …

The coupling between light and collective oscillations of free carriers at metallic surfaces
and nanostructures is at the origin of one of the main fields of nanophotonics: plasmonics …