G. Rogati scite author profile

The translational and orientational dynamics of water in carbon nanotubes has been studied by quasi-elastic neutron scattering from 300 down to 10 K. Results show that, reducing temperature below 200 K, part of this water behaves as a quasi-free rotor, that is, the orientational energy of such molecules becomes comparable to the rotational energy of water in the gas phase. This novel and unique dynamic behavior is related to the appearance of water molecules characterized by a coordination number of about two, which is promoted by sub-nanometer axial confinement. This peculiar molecular arrangement allows water to show an active rotational dynamics even at temperatures as low as 10 K. The translational mobility shows a behavior compatible with the rotational one.

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Reconditioning acidic and artificially aged cellulose with alkaline nanoparticles: an NMR diffusometry study

Nourinaeini

Poggi

Parmentier³

et al. 2020

Cellulose

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The prominent degradation mechanism of cellulose is the acid-catalyzed hydrolysis of glycosidic bonds, which results in the decrease of the degree of polymerization (DP) and, macroscopically, in the dramatic decay of the mechanical resistance of cellulose-based materials. Alkaline nanoparticles in organic solvents have been recently proposed for the deacidification of cellulose-based artworks. Their effectiveness has been demonstrated in previous studies, by pH and DP measurements, colorimetric and thermal analyses. Herein, the changes in the cellulosic network following an acidification bath and a consequent deacidification treatment using Ca(OH) 2 nanoparticles, have been investigated by NMR selfdiffusion dynamics of water and related to the changes of samples' DPs. The deacidification treatment modifies intra-and inter-chain interactions, leading to a buffered cellulose network configuration similar to that characterizing the untreated reference sample in terms of diffusive parameters and confining environment. Such results are plausibly due to a rearrangement in connectivity of the cellulosic network, even though with a different physical fingerprint with respect to the reference sample. The analysis of tortuosity of the cellulosic network in acidic and deacidified samples confirms this conclusion, further corroborating the idea that calcium hydroxide nanoparticles are an effective tool to hamper the degradation of cellulose induced by acids and aging in strong environmental conditions, even from the standpoint of cellulose network arrangement.

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Neutron spin echo monitoring of segmental-like diffusion of water confined in the cores of carbon nanotubes

Parmentier¹,

Maccarini²,

Francesco

et al. 2019

Phys. Chem. Chem. Phys.

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G. Rogati

Neutron scattering observation of quasi-free rotations of water confined in carbon nanotubes

Reconditioning acidic and artificially aged cellulose with alkaline nanoparticles: an NMR diffusometry study

Neutron spin echo monitoring of segmental-like diffusion of water confined in the cores of carbon nanotubes

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