Carlo Dossi scite author profile

Dinitrogen (N 2 ) adsorption on overexchanged Cu-ZSM-5 (Si/Al ) 25, 104% ion exchange from copper acetate) was studied at 302 K by diffuse reflectance infrared spectroscopy (DRIFTS), N 2 -adsorption isotherms, and temperature-programmed N 2 desorption (TPD). We found that Cu-ZSM-5 adsorbs N 2 at least in two different modes. The weaker mode, evidenced by the appearance of an IR band at 2295 cm -1 , was already reported in the literature and assigned to N 2 coordinated on-top on Cu(I) sites. This kind of adsorption occurs only under N 2 atmosphere and is completely reversible at 302 K. The stronger mode, revealed by TPD and by the difference between total and reversible N 2 -adsorption isotherms, is completely irreversible at 302 K. The band at 2130 cm -1 , previously assigned by us to this kind of strong N 2 adsorption, is not observed if ultrapure gases are utilized. The introduction of controlled amounts of impurities, together with the utilization of 15 N 2 and 13 CO shows that this band is instead related to hydrated Cu(I)-CO species formed by accumulation on the sample of traces of H 2 O in the N 2 flow and from residual CO produced during activation. The coordination of N 2 onto Cu(I)‚‚‚Cu(I) dimers is proposed as an adequate model to describe this IR-silent irreversible N 2 adsorption.

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Surface supported metal cluster carbonyls. Chemisorption, reactivity, and decomposition of Ru3(CO)12 on silica

Zanderighi

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et al. 1985

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Recchia¹,

Dossi

Poli³

et al. 1999

Journal of Catalysis

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Carlo Dossi

Dinitrogen Irreversible Adsorption on Overexchanged Cu-ZSM-5

Tree ring microanalysis by LA–ICP–MS for environmental monitoring: validation or refutation? Two case histories

Surface supported metal cluster carbonyls. Chemisorption, reactivity, and decomposition of Ru3(CO)12 on silica

EXAFS Studies of Supported Rh–Sn Catalysts for Citral Hydrogenation

Outstanding Performances of Magnesia-Supported Platinum–Tin Catalysts for Citral Selective Hydrogenation

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