Metal carbides M2 C (MXenes) with two-dimensional (2D) structure have been indicated as promising materials for N2 fixation, with the activity being related to edge planes. Here, it is instead demonstrated that the transformation from a 2D- (nanosheets) to a 3D-type nanostructure (nanoribbons) leads to a significant enhancement of the N2 fixation activity due to the formation of exposed Ti-OH sites. A linear relationship is observed between ammonia formation rate and amount of oxygen on the surface of Ti3 C2 MXene.
Enhancing N2 Fixation Activity by Converting Ti3 C2 MXenes Nanosheets to Nanoribbons
Wei, HuaPrimo
;Ampelli, Claudio;Chen, Shiming;Perathoner, Siglinda;Centi, Gabriele
Ultimo
2020-01-01
Abstract
Metal carbides M2 C (MXenes) with two-dimensional (2D) structure have been indicated as promising materials for N2 fixation, with the activity being related to edge planes. Here, it is instead demonstrated that the transformation from a 2D- (nanosheets) to a 3D-type nanostructure (nanoribbons) leads to a significant enhancement of the N2 fixation activity due to the formation of exposed Ti-OH sites. A linear relationship is observed between ammonia formation rate and amount of oxygen on the surface of Ti3 C2 MXene.File in questo prodotto:
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CSC Enhanced N2_PostPrint .pdf
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CSC Enhanced N2_PostPrint SUPPLEMENTARY INFO.pdf
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Descrizione: CSC Enhanced N2_PostPrint SUPPLEMENTARY INFO
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