Ronaldo Giro scite author profile

Carbon nanotube scrolls (CNSs) provide an interesting form of carbon that ideally consists of a single sheet of graphite that is spiral wrapped to form a nanotube. We here use molecular dynamics simulations to investigate CNS formation, stability, and the structural effects due to charge injection. CNS formation is seen to automatically occur when a critical overlap between sheet layers is achieved for the partially curled sheet. We find that charge injection causes unwinding of the CNSs, which might be important for the application of CNSs as nanomechanical actuators.

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Molecular dynamics simulations of C60 nanobearings

Legoas

Giro

Galvão

2004

Chemical Physics Letters

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Photoluminescence Studies of Phenanthrene−Azomethyne Conjugated−Nonconjugated Multiblock Copolymer

et al. 2006

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A Schiff base type polymer containing phenanthrene and an aliphatic spacer in the main chain was prepared, and its photophysical behavior in diluted and concentrated solutions as well as in film form was studied by steady-state fluorescence spectroscopy. These data indicated that ground-state fluorescent phenanthrene aggregates were present in the films. Time-resolved measurements in diluted conditions showed biexponential decay implying in different microenvironments around the chromophore. Theoretical simulations predicted aggregation in π-stack arrangement, and calculation of optical properties for small aggregates shows the introduction of new states at lower energies, in good agreement with the experimental results. Theoretical studies also forecast the possibility of domains with highly ordered morphology, which was confirmed by DSC measurements providing further support for the presence of the emitting aggregated form.

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Designing conducting polymers using genetic algorithms

Giro

Cyrillo

Galvão

2002

Chemical Physics Letters

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Ronaldo Giro

Structure and Dynamics of Carbon Nanoscrolls

Molecular dynamics simulations of C60 nanobearings

Photoluminescence Studies of Phenanthrene−Azomethyne Conjugated−Nonconjugated Multiblock Copolymer

Designing conducting polymers using genetic algorithms

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