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Oxygen-copper(II) interplay in the repair of semi-oxidized urate by quercetin bound to human serum albumin

journal contribution
posted on 2024-11-07, 19:59 authored by P. Filipe, P. Morlière, L. K. Patterson, G. L. Hug, J. C. Mazière, J. P. Freitas, A. Fernandes, R. Santus
Electrochemical intercalation of cations within two-dimensional transition metal dichalcogenides presents a promising route for tailoring their optoelectronic properties. We have now succeeded in modulating the optical properties of MoS2 thin films through electrochemical intercalation of quaternary ammonium cations. The spectroelectrochemical experiments conducted with varying sizes of the intercalant revealed the size-dependent stability of the intercalated MoS2 nanosheets. The observed absorption change of the exciton bands is reversible and arises from the storage of electrons in MoS2 nanosheets and the subsequent weakening of interlayer van der Waals interactions following cation intercalation. This structural change is evidenced by the emergence of A*1g out-of-plane Raman mode. Additionally, the photoelectron spectroscopy reveals the emergence of a lower binding energy component of Mo 3d and the shift in Fermi level to higher energies, confirming the presence of stored electrons in cation intercalated-MoS2. The underlying mechanism of intercalation-induced property modifications in MoS2 discussed in the present study is useful in developing strategies for energy conversion devices.

Funding

INSERM - Portugal

History

Temporal Coverage

2004

Extent

Page 295-301

Publisher

Free Radical Res.

Source

Volume 38

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    Radiation Laboratory

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