Nanostructured molecular assembly provides, in many cases, peculiar properties that are not found in the individual constituents. Among three-dimensional arrangements the tubular structures are particularly appealing for chemical sensor applications at least for the expected surface increase. In this paper, the sensing properties of nanotubes self-assembled of oppositely charged porphyrins are investigated for the first time. Nanotube arrangement is shown to increase the sensitivity in both mass and optical sensors. The optical sensitivity, not found in individual porphyrins, appears as an intrinsic nanotube property. ©2007 IEEE.
Chemical sensitivity of porphyrin nanotubes
Luce M;
2007
Abstract
Nanostructured molecular assembly provides, in many cases, peculiar properties that are not found in the individual constituents. Among three-dimensional arrangements the tubular structures are particularly appealing for chemical sensor applications at least for the expected surface increase. In this paper, the sensing properties of nanotubes self-assembled of oppositely charged porphyrins are investigated for the first time. Nanotube arrangement is shown to increase the sensitivity in both mass and optical sensors. The optical sensitivity, not found in individual porphyrins, appears as an intrinsic nanotube property. ©2007 IEEE.File in questo prodotto:
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