What is the Quantum Size Effect? The quantum size effect (QSE) is a phenomenon observed in nanomaterials where their electronic, optical, and magnetic properties deviate from those of the bulk ...

The simultaneous capability of colloidal QDs to sustain robust room-temperature spin quantum coherence and to engage in ...

making quantum effects increasingly relevant in the design and performance of electronic devices. Quantum dots are nanoscale semiconductor crystals that exhibit quantum confinement effects. Due to ...

In our view, the effects of modulations on the lateral ... sizes measured by LEEM and gaps measured by ARPES shows that quantum confinement is not the main mechanism for the gap opening.

Colloidal quantum dots are showcasing their potential beyond vibrant colors, diving deep into quantum effects such as spin coherence. Researchers are pioneering the use of these quantum properties to ...

Colloidal quantum dots (QDs) constitute a platform to explore various quantum effects. Their size-dependent colors are essentially a naked-eye ...

The diameter of a QD is in the same order as its exciton Bohr radius, which spatially confines the exciton and leads to the quantum confinement effect. This effect quantizes the energy levels of ...

Specific research interests include but are not limited to superconductivity, magnetism, correlated and spin-orbit-coupled materials, Weyl and Dirac semimetals, and nanostructured materials with ...

Quantum materials promise to revolutionize digital technology due to the possibilities of creating coherent superposition of ...