Emanuela Gatto scite author profile

The authors demonstrate the ability of multiwall carbon nanotubes to generate photocurrents in the near ultraviolet and visible spectral ranges using electrochemical photocurrent measurements. The photogenerated current depends on the excitation wavelength similar to that for single wall carbon nanotubes. Its intensity and modulation can be related to the carbon nanotubes morphology. The maximum photon-to-current conversion efficiency is approximately 7%, about 50 times higher than that reported for single wall carbon nanotubes. This result is of particular relevance for photovoltaic nanodevices and solar energy conversion applications. (c) 2006 American Institute of Physics

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Tetraferrocenylporphyrins as active components of self-assembled monolayers on gold surface

Vecchi

Gatto

Floris

et al. 2012

Chem. Commun.

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Novel tetraferrocenylporphyrins-containing self-assembled monolayers were prepared employing two different approaches. Self-assembled monolayers were characterized using UV-Vis spectroscopy and cyclic voltammetry (CV) whereas their photoelectrochemical properties were investigated by photocurrent generation (PG) experiments.Porphyrin-based self-assembled monolayers (SAMs) were widely investigated in the last two decades, due to their remarkable electrochemical and photophysical properties that resulted in several molecular electronic applications.

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Electroconductive and photocurrent generation properties of self‐assembled monolayers formed by functionalized, conformationally‐constrained peptides on gold electrodes

Gatto

Stella

Formaggio

et al. 2007

Journal of Peptide Science

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The electroconductive properties and photocurrent generation capabilities of self-assembled monolayers formed by conformationally-constrained hexapeptides were studied by cyclic voltammetry, chronoamperometry, and photocurrent generation experiments. Lipoic acid was covalently linked to the N-terminus of the peptides investigated to exploit the high affinity of the disulfide group to the gold substrates. Smart functionalization of the peptide scaffold with a redox-active (TOAC) or a photosensitizer (Trp) amino acid allowed us to study the efficiency of peptide-based self-assembled monolayers to mediate electron transfer and photoinduced electron transfer processes on gold substrates. Interdigitated microelectrodes have shown higher film stability under photoexcitation, lower dark currents, and higher sensitivity with respect to standard gold electrodes.

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Effect of Peptide Lipidation on Membrane Perturbing Activity: A Comparative Study on Two Trichogin Analogues

et al. 2006

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The effect of lipidation on the membrane perturbing activity of peptaibol antibiotics was investigated by performing a comparative study on two synthetic analogues of the natural peptide trichogin GA IV. Both analogues were labeled with a hydrophobic fluorescent probe, but one of them lacked the N-terminal n-octanoyl chain, present in the natural peptide. Spectroscopic studies show that the fatty acyl chain produces two opposite effects: it increases the affinity of the monomeric peptide for the membrane phase, but, at the same time, it favors peptide aggregation in water, thus inhibiting membrane binding by reducing the effective monomer concentration. In the membrane phase the two analogues exhibit the same aggregation and orientation behavior, indicating that the n-octanoyl chain plays no specific role in determining their orientation or membrane perturbing activity. Indeed, the dependence of peptide-induced membrane leakage on total peptide concentration is basically the same for the two analogues, because the aforementioned opposite effects, caused by peptide lipidation, tend to balance. These findings make questionable the use of lipidation as a general method for increasing the peptide membrane-perturbing activity, as its validity seems to be restricted to parent compounds of limited overall hydrophobicity.

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Emanuela Gatto

Large photocurrent generation in multiwall carbon nanotubes

Tetraferrocenylporphyrins as active components of self-assembled monolayers on gold surface

Electroconductive and photocurrent generation properties of self‐assembled monolayers formed by functionalized, conformationally‐constrained peptides on gold electrodes

Effect of Peptide Lipidation on Membrane Perturbing Activity: A Comparative Study on Two Trichogin Analogues

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