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Nanoclusters of Dicyanocuprate(I) Anions in Aqueous Solutions: Investigating Cuprophilic Interactions
Author(s) -
Nicholas Aaron D.,
Connolly Roger P.,
Szewczyk Thomas E.,
Patterson Howard H.
Publication year - 2019
Publication title -
chemistryselect
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.437
H-Index - 34
ISSN - 2365-6549
DOI - 10.1002/slct.201901396
Subject(s) - nanoclusters , trimer , aqueous solution , dimer , luminescence , chemistry , raman spectroscopy , ion , density functional theory , alkali metal , inorganic chemistry , metal ions in aqueous solution , infrared spectroscopy , crystallography , computational chemistry , materials science , organic chemistry , physics , optoelectronics , optics
The oligomerization of cyanocuprate(I) ions in aqueous solutions lacking and containing alkali cyanide salts (NaCN/KCN) has been investigated by infrared, Raman, and low temperature luminescence spectroscopy. In solution metallophilic interactions between Cu(I) metal centers bind the ions together into ∼1D chains. The structure and luminescence assignment of these nanoclusters was determined using simple Group Theory and Density Functional Theory calculations. Measurements show that the presence of KCN and NaCN in solution drives oligomerization of CuCN 2 − ions to higher order nanoclusters. Calculations of dimer and trimer clusters with K + and Na + ions indicate that alkali metals favor the formation of linear clusters as opposed to those that are bent. These findings fill an important gap in the understanding of d 10 cyanometallate oligomers given the prevalence of cyanocuprate(I) in metal‐organic frameworks.