The interest in functional supramolecular systems for the design of innovative materials and
technologies, able to fundamentally change the world, is growing at a high pace. The huge …

Silicon is the most prevalent material system for light‐harvesting applications; however, its
inherent indirect bandgap and consequent weak absorption limits its potential in …

Интерес к функциональным супрамолекулярным системам как основе для
конструирования инновационных материалов и технологий, способных кардинальным …

We report efficient triplet exciton phosphorescence quenching from a Langmuir–Blodgett
monolayer of a modified rhenium (I) fac-tricarbonyl bipyridine complex on the surface of …

The optical properties of silicon nanowire arrays (SiNWs) are closely related to surface
morphology due to quantum effects and quantum confinement effects of the existing …

Energy transfer from a submonolayer of rhodamine 6G molecules to a 130 nm thick
crystalline silicon (Si) waveguide is investigated. The dependence of the fluorescence …

Silicon solar cells have dominated the photovoltaic market for decades because of their high
module efficiencies, low manufacturing costs, excellent long-term stability, material …

Fluorescent properties of single Rhodamine molecules at different distances to the surface
of a high‐quality polycrystalline gold film are investigated by the time‐correlated single …

ULTRATHIN ORGANIC DYE LAYERS FOR SENSITISATION OF SILICON Lukáš Gdula1,
Branislav Dzurňák1, Anna Pražanová1,Tom Markvart Page 1 Lukáš Gdula, Branislav Dzurňák …

Colloidal quantum wells (CQWs) belong to an important quasi-2-dimensional sub-family of
semiconductor nanocrystals. Thanks to their uniquely tight quantum confinement of only few …