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Paul F McMillanUniversity College LondonLuminescent And Photocatalytically Active Carbon Nitride Nanocrystals Dissolved In Polar Liquids Angell International Symposium on Molten Salt, Ionic & Glass-forming Liquids: Processing and Sustainability (7th Intl. Symp. on Molten Salt, Ionic & Glass-forming Liquids: Processing and Sustainability). Back to Plenary Lectures » |
Abstract:Layered carbon nitrides based on a polytriazine imide (PTI) sheet structure crystallize as 50-100 nm particles with hexagonal columnar morphology following synthesis from precursors such as dicyandiamide (DCDA) in molten salt (LiCl/KCl or LiBr/KBr eutectic) solutions [1,2]. When the crystals are exposed to aprotic polar liquids including DMSO, DMF and NMP as well as H2O they dissolve spontaneously forming few-layered crystalline 2D nanosheets in solution. The solutions are photoluminescent and photocatalytically active [3,4]. Following solvent evaporation the layered nanomaterials re-stack in a crystalline arrangement giving rise to a broad range of emission wavelengths extending throughout the visible range [3,5]. We will present new results for the dissolution process and the 2D nanoparticles in solution using high energy X-ray and neutron scattering techniques. We also discuss the glass forming ability of the solutions to provide few-layered crystalline nanoparticles with tunable photoluminescence properties held in a solid matrix. References:[1] M.J. Bojdys et al, Chem Eur J 14 (2008) 8177 |
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