Positively charged, synthetic chrysotile nanotubes act as inorganic tectons supporting H- and J-type aggregates of anionic porphyrins with markedly different optical properties, making these nanohybrid materials of interest for application in nanotechnology.
Self-Organizing Functional Materials via Ionic Self Assembly: Porphyrins H and J-Aggregates on Synthetic Chrysotile Nanotubes
Giovanna De Luca;Valentina Villari;
2009
Abstract
Positively charged, synthetic chrysotile nanotubes act as inorganic tectons supporting H- and J-type aggregates of anionic porphyrins with markedly different optical properties, making these nanohybrid materials of interest for application in nanotechnology.File in questo prodotto:
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Descrizione: Self-Organizing Functional Materials via Ionic Self Assembly: Porphyrins Hand J-Aggregates on Synthetic Chrysotile Nanotubes
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