205313-75-3Relevant articles and documents
Encapsulation of the BeII cation: Spectroscopic and computational study
Shaffer, Karl J.,Davidson, Ross J.,Burrell, Anthony K.,McCleskey, T. Mark,Plieger, Paul G.
, p. 3969 - 3975 (2013/05/09)
The structures of a series of tetracoordinate beryllium(II) complexes with ligands derived from tertiary-substituted amines have been computationally modeled and their 9Be magnetic shielding values determined using the gauge-including atomic orbital (GIAO) method at the 6-311++g(2d,p) level. A good correlation was observed between calculated 9Be NMR chemical shifts when compared to experimental values in polar protic solvents, less so for the values recorded in polar aprotic solvents. A number of alternative complex structures were modeled, resulting in an improvement in experimental versus computational 9Be NMR chemical shifts, suggesting that in some cases full encapsulation on the beryllium atom was not occurring. Several of the synthesized complexes gave rise to unexpected fluorescence, and inspection of the calculated molecular orbital diagrams associated with the electronic transitions suggested that the rigidity imparted by the locking of certain conformations upon BeII coordination allowed delocalization across adjacent aligned aromatic rings bridged by BeII.
A Class of Ligands Designed as Model for Apogalactose Oxidase
Menage, Stepane,Gellon, Gisele,Pierre, Jean-Louis,Zurita, Dacil,Saint-Aman, Eric
, p. 785 - 792 (2007/10/03)
Seven tripodal tetradentate ligands bearing one pyridine and two diversely substituted phenolic arms, designed as models for apogalactose oxidase, have been synthesized.Electrochemical one-electron oxidation of acetonitrile solutions of the ligands led to