Litcius/Paper detail

Down-shifting in Ce3+- Tb3+ co-doped phosphate glasses for solar cells application

H. Benrejeb, Christian Hernández‐Álvarez, Inocencio R. Martín, Kevin Soler‐Carracedo, Leopoldo L. Martín, Daniel Alonso, S. Hraiech

2024Solar Energy Materials and Solar Cells12 citationsDOIOpen Access PDF

Abstract

The Down-Shifting (DS) of UV photons into the visible range has been attracting much attention for lighting appliances and solar cells. This work reported the DS luminescence in Ce3+-Tb3+ co-doped phosphate glasses. Photoluminescence and decay curves were measured and analysed. According to the emission spectra, it was noticed a decrease in emission of the Ce3+ peak intensity and an increase of the Tb3+ visible emission intensity when the Tb3+ concentration is enlarged, indicating an energy transfer process from Ce3+ to Tb3+. Moreover, it was observed that the blue emission of Tb3+ decreases, while the green emission enhances by gradually increasing Tb3+ concentration. According to the decay curves of Tb3+, this result can be explained by cross-relaxation between Tb3+ ions. The experimental temporal evolution of the green emission of Tb3+ ions obtained under excitation of the Ce3+ ions at 280 nm is well simulated using a proposed model. In this way, the dynamics of the processes involved is perfectly understood and can be applied for solar cell applications. Therefore, the samples were placed over a solar cell and excited with UV excitation. In this excitation range, the silicon solar cell is not efficient, but the Ce3+ ions absorb this energy and transfer to the Tb3+ ions, which produce an intense visible emission. This emission is detected by the solar cell and produces photocurrent. In summary, the use of co-doped phosphate glass could enhance the current in a solar cell in the UV region.

Topics & Concepts

IonPhotoluminescenceDopingMaterials sciencePhotocurrentPhosphate glassAnalytical Chemistry (journal)Excited stateLuminescenceSolar cellEmission intensityEmission spectrumExcitationAtomic physicsOptoelectronicsChemistrySpectral linePhysicsQuantum mechanicsOrganic chemistryChromatographyAstronomyLuminescence Properties of Advanced MaterialsGlass properties and applicationsPhotorefractive and Nonlinear Optics