Infrared Spectroscopic Characterization of Cyanocuprates

The synthetically useful cyanocuprates MeCu(CN)Li (2) and “Me2CuLi·LiCN” (3) have been characterized by infrared spectroscopy. Titration of CuCN·2LiCl (1) with MeLi in THF solution has established that 2 has an IR absorption due to cyanide stretching at 2133 cm-1 with ε = 2.3 × 103 cm-2 M-1, while t...

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Bibliographic Details
Published in:Journal of the American Chemical Society 1996-09, Vol.118 (37), p.8808-8816
Main Authors: Huang, Hui, Alvarez, Khris, Lui, Qiang, Barnhart, Terence M, Snyder, James P, Penner-Hahn, James E. 
Format: Article
Language:English
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Summary:The synthetically useful cyanocuprates MeCu(CN)Li (2) and “Me2CuLi·LiCN” (3) have been characterized by infrared spectroscopy. Titration of CuCN·2LiCl (1) with MeLi in THF solution has established that 2 has an IR absorption due to cyanide stretching at 2133 cm-1 with ε = 2.3 × 103 cm-2 M-1, while the CN stretching frequency for 3 occurs at 2115 cm-1 with ε = 4.0 × 102 cm-2 M-1. The spectra suggest that 2 and 3 are the only significant cuprate species present in the methylcyanocuprate system. The IR titration data give a formation constant of approximately 8 × 103 for 2 + MeLi ⇌ 3. The present data stand in contrast to earlier reports that 2 and 3 have identical IR spectra. The earlier conclusion appears to have been a consequence of the significantly different molar absorptivity of cyanide in 2 and 3 and the presence of small amount of 2 in equilibrium with 3 when the MeLi:CuCN ratio is 2:1. Ab initio calculations of the frequencies and intensities of the CN stretch are able to semiquantitatively reproduce the observed trends using a model in which the CN- is bound to the Cu in 2 but is not bound directly to the Cu in 3. The predicted CN stretch for a “higher order” cyanocuprate structure, with a three-coordinate [Me2CuCN]2-, is not consistent with the observed value. In contrast, the seven-membered bridged Gilman cuprate 14 appears to fulfill all of the structural and IR spectroscopic requirements for the 2115 cm-1 species.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja961862w