Abstract

A new non-innocent ligand, H2L(AP(o-NO2-OPh)), was synthesized. The ligand H2L(AP(o-NO2-OPh)) reacted with 0.5 equivalents of CuCl2·2H2O and provided the corresponding mononuclear four-coordinate [Cu(ii)-bis(iminosemiquinone)] complex (1). Interestingly, the ligand upon reacting with 2 equivalents of CuCl2·2H2O in the presence of Et3N and air provided the corresponding trans-dichloride-bound six-coordinate mononuclear Cu(ii)-complex (2) in one step. To extend the validity of the newly developed one-step synthesis of the trans-dichloride-bound Cu(ii)-bis(iminoquinone) complex using a non-innocent ligand and 2 equivalents of CuCl2·2H2O, the previously reported non-innocent ligand H2L(AP) was further examined. Thus the formed trans-dichloride-bound Cu(ii)-bis(iminoquinone) complex was designated as complex 3. The complexes were characterized by IR, mass, UV-Vis/NIR, X-band EPR, and X-ray single crystal diffraction techniques. Molecular structure analysis confirmed that in 1 the oxidation state of the coordinating ligands was [L(ISQ(o-NO2-OPh))](1-), i.e., one-electron oxidized iminosemiquinone. In 2 and 3·CH2Cl2, both the coordinated-ligands were present in their two-electron oxidized iminoquinone form. The iminoquinone-complex formation was found to proceed with the generation of CuCl salt. X-band EPR spectrum measurement confirmed that both the iminoquinone-complexes were paramagnetic and the unpaired electron was located at the 3dx(2)-y(2) orbital of Cu(ii) ions. When the Cu(ii)-bis(iminoquinone) complex 3 was subjected to react with NaBH4 in dry CH3CN, H2 gas was formed along with the generation of the corresponding Cu(ii)-bis(iminosemiquinone) complex. GC analyses were performed for the identification of H2 gas.

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