Luminescence des ions activateurs dans les matériaux inorganiques et applications

Abstract: 2014 Nous présentons les mécanismes de base de l'absorption d'un rayonnement de pompage et de l'émission de fluorescence des matériaux inorganiques luminescents et nous donnons la liste des principaux composés utilisés par la technologie moderne. Après avoir montré les relations entre les recherches conduites pour le développement des deux types de matériaux (luminophores polycristallins et monocristaux lasers) nous insistons plus sur l'état de l'art et les perspectives des recherches des luminophores pour l'é… Show more

“…For the radiative transfer, the activator (A) (RhB molecules) can absorb the photon emitted by the sensitiser (S) (alumina nanocrystallites). It is a transfer at length distance which is proportional to R À2 where R is the distance between A and S. The probability of radiative transfer is given by [21] …”

“…The resonant non-radiative transfer can occur if the exchanged interactions are at short distances. Its probability is given by [21] …”

Rhodamine B absorbed by anodic porous alumina: Stokes and anti-Stokes luminescence study

“…For the radiative transfer, the activator (A) (RhB molecules) can absorb the photon emitted by the sensitiser (S) (alumina nanocrystallites). It is a transfer at length distance which is proportional to R À2 where R is the distance between A and S. The probability of radiative transfer is given by [21] …”

“…The resonant non-radiative transfer can occur if the exchanged interactions are at short distances. Its probability is given by [21] …”

Rhodamine B absorbed by anodic porous alumina: Stokes and anti-Stokes luminescence study

“…The resonant nonradiatif transfer can occur if the exchanged interactions are at short distances. It's probability is given by [19,20] …”

Excitation process and photoluminescence properties of Tb3+ and Eu3+ ions in SnO2 and in SnO2: Porous silicon hosts

“…It is very important for luminescence research to find systems in which the emitted light lies in the visible region. The emitted luminescence spectra favorite some rare earth compounds to be used as laser materials, lamp phosphors or as x-ray phosphors [22][23][24]. In particular Gd 3+ compounds are interesting from a fundamental and a practical point of view [25].…”

First Investigation of Optical Properties and Local Structure of <br/>Gd<sup>3+</sup> Doped Nano-Crystalline GeSe<sub>2</sub>