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.
De Luca G., Romeo A., Villari V., Micali N., Foltran I., Foresti E., et al. (2009). Self-Organizing Functional Materials via Ionic Self Assembly: Porphyrins H- and J-Aggregates on Synthetic Chrysotile Nanotubes. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 131(20), 6920-6921 [10.1021/ja901273h].
Self-Organizing Functional Materials via Ionic Self Assembly: Porphyrins H- and J-Aggregates on Synthetic Chrysotile Nanotubes
FOLTRAN, ISMAELA;FORESTI, ELISABETTA;LESCI, ISIDORO GIORGIO;ROVERI, NORBERTO;ZUCCHERI, TOMMASO;
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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