The burgeoning interest in two-dimensional (2D) black phosphorus (bP) contributes to the expansion of its applications in numerous fields. In the present study, 2D bP is used as a support for homogeneously dispersed palladium nanoparticles directly grown on it by a wet chemical process. Electron energy loss spectroscopy−scanning transmission electron microscopy analysis evidences a strong interaction between palladium and P atoms of the bP nanosheets. A quantitative evaluation of this interaction comes from the X-ray absorption spectroscopy measurements that show a very short Pd−P distance of 2.26 Å, proving for the first time the existence of an unprecedented Pd−P coordination bond of a covalent nature. Additionally, the average Pd−P coordination number of about 1.7 reveals that bP acts as a polydentate phosphine ligand toward the surface of the Pd atoms of the nanoparticles, thus preventing their agglomeration and inferring with structural stability. These unique properties result in a superior performance in the catalytic hydrogenation of chloronitroarenes to chloroanilines, where a higher chemoselectivity in comparison to other heterogeneous catalyst based on palladium has been observed
Black Phosphorus/Palladium Nanohybrid: Unraveling the Nature of P-Pd Interaction and Application in Selective Hydrogenation / Vanni M.; Serrano-Ruiz M.; Telesio F.; Heun S.; Banchelli M.; Matteini P.; Mio A.M.; Nicotra G.; Spinella C.; Caporali S.; Giaccherini A.; D'Acapito F.; Caporali M.; Peruzzini M.. - In: CHEMISTRY OF MATERIALS. - ISSN 0897-4756. - STAMPA. - 31:(2019), pp. 5075-5080. [10.1021/acs.chemmater.9b00851]
Black Phosphorus/Palladium Nanohybrid: Unraveling the Nature of P-Pd Interaction and Application in Selective Hydrogenation
Matteini P.Membro del Collaboration Group
;NICOTRA, GIUSEPPEMembro del Collaboration Group
;Caporali S.Membro del Collaboration Group
;Giaccherini A.Membro del Collaboration Group
;Caporali M.
Conceptualization
;Peruzzini M.Membro del Collaboration Group
2019
Abstract
The burgeoning interest in two-dimensional (2D) black phosphorus (bP) contributes to the expansion of its applications in numerous fields. In the present study, 2D bP is used as a support for homogeneously dispersed palladium nanoparticles directly grown on it by a wet chemical process. Electron energy loss spectroscopy−scanning transmission electron microscopy analysis evidences a strong interaction between palladium and P atoms of the bP nanosheets. A quantitative evaluation of this interaction comes from the X-ray absorption spectroscopy measurements that show a very short Pd−P distance of 2.26 Å, proving for the first time the existence of an unprecedented Pd−P coordination bond of a covalent nature. Additionally, the average Pd−P coordination number of about 1.7 reveals that bP acts as a polydentate phosphine ligand toward the surface of the Pd atoms of the nanoparticles, thus preventing their agglomeration and inferring with structural stability. These unique properties result in a superior performance in the catalytic hydrogenation of chloronitroarenes to chloroanilines, where a higher chemoselectivity in comparison to other heterogeneous catalyst based on palladium has been observed
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