Abstract
Eu3+ ions-doped cubic mesoporous silica thin films with a thickness of about 205 nm were prepared on silicon and glass substrates using triblock copolymer as a structure-directing agent using sol–gel spin-coating and calcination processes. X-ray diffraction and transmission electron microscopy analysis show that the mesoporous silica thin films have a highly ordered body-centered cubic mesoporous structure. High Eu3+ ion loading and high temperature calcination do not destroy the ordered cubic mesoporous structure of the mesoporous silica thin films. Photoluminescence spectra show two characteristic emission peaks corresponding to the transitions of5D0-7F1 and 5D0-7F2 of Eu3+ ions located in low symmetry sites in mesoporous silica thin films. With the Eu/Si molar ratio increasing to 3.41%, the luminescence intensity of the Eu3+ ions-doped mesoporous silica thin films increases linearly with increasing Eu3+ concentration.
Highlights
Preparation of mesoporous silica thin films (MTFs) by evaporation-induced self-assembly took its origins from the pioneer work by Mobil on surfactant-templated materials [1]
Photoluminescence spectra show two characteristic emission peaks corresponding to the transitions of 5D0-7F1 and 5D0-7F2 of Eu3? ions located in low symmetry sites in mesoporous silica thin films
The Eu/Si molar ratios determined by the inductively coupled plasma atomic emission spectrometry (ICP-AES) analysis are used
Summary
Preparation of mesoporous silica thin films (MTFs) by evaporation-induced self-assembly took its origins from the pioneer work by Mobil on surfactant-templated materials [1]. Ions-doped cubic mesoporous silica thin films with a thickness of about 205 nm were prepared on silicon and glass substrates using triblock copolymer as a structure-directing agent using sol–gel spin-coating and calcination processes. Ion loading and high temperature calcination do not destroy the ordered cubic mesoporous structure of the mesoporous silica thin films.
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