Christine M. Gaudinski scite author profile

nate Cu + ion bonded to the sulfonamide nitrogen atom and to two CO ligands with long Cu-C bonds (1.90 and 1.91 Å) and a C-Cu-C bond angle of 122°. The two ν(CO) IR bands for this compound are at 2158 (s) and 2184 (m) cm -1 .Copper(I) carbonyls have long been of interest to chemists. 1 They are formed in many catalytic transformations of CO 2 and in the purification of CO from steam-methane-reforming gases. 3 In addition, CO is used as a probe ligand for studying reduced coppercontaining proteins and enzymes. 4 Finally, the ν(CO) values of copper(I) carbonyls can be either higher or lower than 2143 cm -1 , the value for gaseous CO. This makes copper(I) carbonyls of pivotal importance in understanding and refining the distinction between classical and nonclassical metal carbonyls. 5 Virtually all copper(I) carbonyl complexes studied to date have a stoichiometry Cu:CO ) 1:1. 6 Nevertheless, there are some important exceptions. In a seminal paper in 1976, Souma and co-workers reported that Cu + ions dissolved in strong protic acids could absorb up to 4(1) (a) Leblanc, F.

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Use of 0.0 mm Pathlength Gas Cell to Eliminate CO(g) Absorbance from High-CO-Pressure Solid-State IR Spectra of Nonclassical Metal Carbonyls

Rack

Polyakov

Gaudinski

et al. 1998

Appl Spectrosc

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A transmission-IR gas cell was constructed from 18%-Ni maraging steel so that two parallel 10 mm diameter × 3 mm thick sapphire windows were held approximately 0.1 mm apart. The cell was engineered to withstand static gas pressures up to 150 atm. When 100 atm CO was placed in the cell, the % transmittance was essentially zero between 2200 and 2080 cm−1 because of the intense v(CO) band centered at 2143 cm−1 (this is an important region of interest for the growing subset of metal carbonyl complexes known as nonclassical metal carbonyls). When the cell was assembled with Nujol or Fluorolube mulls of several microcrystalline copper(I) and silver(I) salts between the windows and CO gas was added to the cell, the gas dissolved in the mulling agents and reacted with the metal salts, but no gaseous CO was observed in the spectrum. New spectral bands were observed that are attributed to unusual metal carbonyl species that are stable only under high CO pressure. A relatively weak band due to free CO dissolved in the mulling agents was detected at 2138–2135 cm−1. The new cell was used to demonstrate that the compound Ag(OTeF5) takes up only one equivalent of CO at 100 atm and that the compound Cu(CF3SO3) takes up two equivalents of CO at 136 atm.

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