Controlling the Emission of Blue-Emitting Complexes by Encapsulation within Zeolite Cavities

Citations Over Time

Abstract

Blue light-emitting boron 8-hydroxyquinolinate and 8-hydroxyquinaldinate complexes have been formed inside boron zeolites Beta, MCM-22, and ferrierite, and on layered ITQ-2 and ITQ-6 zeolites starting from the corresponding ligands and boron dislodged from framework positions. The luminescence properties, i.e., emission intensity, maximum wavelength, and lifetime of the ship-in-a-bottle quinolinate complexes are strongly modulated by the zeolite host. Besides the species responsible for the photoluminescence, other longer-lived transient species, presumably related to electron transport, are also photochemically generated and have been detected by laser flash photolysis.

Related Papers

• → Cooperative Effect of Sodium and Potassium Cations on Synthesis of Ferrierite(2008)40 cited
• → Acidic ferrierite type zeolite(1988)30 cited
• → Synthesis of an iron silicate with the ferrierite structure(1996)12 cited
• → Catalytic Vapor-Phase Hydration of Lower Olefins over Protonic Zeolite Catalysts(1986)9 cited
• Synthesis and Characterization of Nanocrystalline Ferrierite Zeolite and Its Catalytic Activity(2013)