Synthesis and luminescent properties of nanoparticles GdCaAl3O7:RE3+ (RE=Eu, Tb) via the sol–gel method

“…The non-hydrolytic solÁgel route involves the reaction of a metal halide with an oxygen donor, such as ether or alcohol, under non-aqueous conditions, to form an inorganic oxide. This methodology is an alternative for the formation of multicomponent oxide materials displaying chemical, physical, and thermal properties that cannot be obtained by the hydrolytic solÁgel route (Ciuffi et al 2002, 2006, Bao et al 2007, Nassar et al 2005, Pereira et al 2007, Cestari et al 2009). …”

Protective coating materials on nylon substrate by sol–gel

“…The non-hydrolytic solÁgel route involves the reaction of a metal halide with an oxygen donor, such as ether or alcohol, under non-aqueous conditions, to form an inorganic oxide. This methodology is an alternative for the formation of multicomponent oxide materials displaying chemical, physical, and thermal properties that cannot be obtained by the hydrolytic solÁgel route (Ciuffi et al 2002, 2006, Bao et al 2007, Nassar et al 2005, Pereira et al 2007, Cestari et al 2009). …”

Protective coating materials on nylon substrate by sol–gel

“…Eu 3 + -doped phosphors had been studied by many researches, for it is a common luminescent center providing red light. Nevertheless, most of these researches either had low concentration and intensity [11,12] or had a strong matrix absorption at UV band, and UV chips are likely chosen to match them instead of near-UV ones [13][14][15]. Since the $ 400 nm InGaNbased LED chips are commercially available, it is becoming a hotspot for finding the phosphor which could be excited around this wavelength.…”

Highly luminescent red light phosphor CaTiO3:Eu3+ under near-ultraviolet excitation

“…This method is very good for obtaining aluminates, oxides, nitrides, phosphates and sulfides (Bao et al, 2007;Aguilar et al, 2001;Rivera et al, 2007a;.…”

Preparation methods of thermoluminescent materials for dosimetric applications: An overview