Add to ORKGInternational audienceWe report on the energy-transfer mechanism between amorphous Si nanoclusters and erbium ions in a SiO2 matrix. We have studied a set of optimized samples which show maximum Er3+ to Si-nc coupling ratio. We demonstrate that the transfer mainly occurs to the 4I112 level in less than 100 ns and that higher Er3+ energetic levels are not involved. Furthermore, we show that there are no traces of Auger back-transfer, excited state absorption, or pair-induced quenching mechanisms in our samples, leading us to propose a model in which the short interaction distance between Si-nc and Er3+ ions is the limiting factor for the noncomplete excitation of the whole Er3+ active population
International audienceOptical properties of directly excited erbium (Er3+) ions have been studied in...
We present an extensive study of the structural and optical emission properties in aluminum silicate...
Erbium-doped silicon-rich silica is a material that has generated great interest, as it holds consid...
International audienceWe report on the energy-transfer mechanism between amorphous Si nanoclusters a...
We report on the energy-transfer mechanism between amorphous Si nanoclusters and erbium ions in a Si...
International audienceWe report a spectroscopic study about the energy transfer mechanism among sili...
We report a spectroscopic study about the energy transfer mechanism among silicon nanoparticles (Si-...
The mechanism of energy transfer from silicon nanocrystals (Si-nc's) to erbium (Er) ions is studied ...
Despite the observation by a number of groups of a strong luminescence sensitization effect of erbiu...
The sensitizing action of amorphous silicon nanoclusters on erbium ions in thin silica films has bee...
Silicon nanoclusters (Si-nc) can be efficient sensitisers of surrounding Er3+ ions, making Er-doped ...
International audienceOptical properties of directly excited erbium (Er3+) ions have been studied in...
We present an extensive study of the structural and optical emission properties in aluminum silicate...
Erbium-doped silicon-rich silica is a material that has generated great interest, as it holds consid...
International audienceWe report on the energy-transfer mechanism between amorphous Si nanoclusters a...
We report on the energy-transfer mechanism between amorphous Si nanoclusters and erbium ions in a Si...
International audienceWe report a spectroscopic study about the energy transfer mechanism among sili...
We report a spectroscopic study about the energy transfer mechanism among silicon nanoparticles (Si-...
The mechanism of energy transfer from silicon nanocrystals (Si-nc's) to erbium (Er) ions is studied ...
Despite the observation by a number of groups of a strong luminescence sensitization effect of erbiu...
The sensitizing action of amorphous silicon nanoclusters on erbium ions in thin silica films has bee...
Silicon nanoclusters (Si-nc) can be efficient sensitisers of surrounding Er3+ ions, making Er-doped ...
International audienceOptical properties of directly excited erbium (Er3+) ions have been studied in...
We present an extensive study of the structural and optical emission properties in aluminum silicate...
Erbium-doped silicon-rich silica is a material that has generated great interest, as it holds consid...