Three complexes [AMP][Ni(mnt)2]·CH3CN (1, AMP = 1-(9-anthrylmethyl)pyri- dinium), [DPI]2[Ni(nmt)2]I (2, DPI = diphenyliodonium) and [DD][Ni(mnt)2]2·2H2O (3, DD = dimethylenediamine) have been p...Three complexes [AMP][Ni(mnt)2]·CH3CN (1, AMP = 1-(9-anthrylmethyl)pyri- dinium), [DPI]2[Ni(nmt)2]I (2, DPI = diphenyliodonium) and [DD][Ni(mnt)2]2·2H2O (3, DD = dimethylenediamine) have been prepared and characterized by elemental analyses and IR spectroscopy. X-ray diffraction studies show that three complexes crystallize in the same triclinic space group Pi, and anionic accumulations are formed in a column shape. The results show that different counter-cations could induce versatile anionic stacks. The structures of three complexes exhibit rich hydrogen bonding interactions. In addition, UV-VIS properties of them are also investigated.展开更多
基金Supported by Basic&Advanced Technology Research Projects of Henan Science and Technology Department
文摘Three complexes [AMP][Ni(mnt)2]·CH3CN (1, AMP = 1-(9-anthrylmethyl)pyri- dinium), [DPI]2[Ni(nmt)2]I (2, DPI = diphenyliodonium) and [DD][Ni(mnt)2]2·2H2O (3, DD = dimethylenediamine) have been prepared and characterized by elemental analyses and IR spectroscopy. X-ray diffraction studies show that three complexes crystallize in the same triclinic space group Pi, and anionic accumulations are formed in a column shape. The results show that different counter-cations could induce versatile anionic stacks. The structures of three complexes exhibit rich hydrogen bonding interactions. In addition, UV-VIS properties of them are also investigated.
