Quantum dots (QDs) are semiconductor nanoparticles (NPs) that have gained significant
interest in the academia and industry because of their unique optoelectronic properties such …

The extraordinary optical properties of surface plasmons in metal nanostructures provide the
possibilities to enhance and accelerate the spontaneous emission, and manipulate the …

Single photons carrying spin angular momentum (SAM), ie, circularly polarized single
photons generated typically by subjecting a quantum emitter (QE) to a strong magnetic field …

Colloidal quantum dot (QD), a solution‐processable nanoscale optoelectronic building block
with well‐controlled light absorption and emission properties, has emerged as a promising …

Nanoantennas and nanocavities are widely used for at‐source manipulation of quantum
emission based on the well‐known Purcell effect. Here, the configuration is explored …

Spontaneous photon emission can be drastically modified by placing quantum emitters
(QEs) in nanostructured environment, resulting in dramatically enhanced emission rates due …

We report on a template-stripping method for the direct surface patterning of colloidal
quantum-dot thin films to produce highly luminescent structures with feature sizes less than …

We propose highly efficient hybrid plasmonic bullseye antennas for collecting photon
emission from nm-sized quantum emitters. In our approach, the emitter radiation is coupled …

Plasmonic nanosponges are a powerful platform for various nanophotonic applications
owing to extremely high local field enhancement in metallic nanopores. The filling of the …

One of the most important challenges in modern quantum optical applications is the
demonstration of efficient, scalable, on-chip single photon sources, which can operate at …