OXO CENTERED HETEROTRINUCLEAR TRANSITION METAL CAR- BOXYLATE COMPLEXES 5,~(57)Fe MOSSBAUER SPECTRA AND ELEC-TRON TRANSFER PROPERTIES OF COMPLEXES Fe_2MO(RCOO)_6L_3(M= Mn,Co,Ni) |
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基金项目: | Project Suppouted by NSFC |
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摘 要: | <正> The 57Fe Mossbauer spectra of mixed-valence heterotrinuclear carboxylate complexes, Fe2MO(OOCCH3)6Py3]. Py (M = Mn,Co,Ni,Py = Pyridine) and Fe2MO-(OOCCC13 )6THF3 (M = Mn, Co, Ni, THF = Tetrahydrofuran ) indicated that these Fe2M complexes are all valence-trapped on the 57Fe Mossbauer time scale (10-8s) both at 77 K and at room temperature. Expanding the PKS model to asymmetric tricenteral systems showed that intramolecular electron transfer in Fe2M complexes is difficult due to asymmetry of the Fe2MO(RCOO)6L3molecule and high potential-energy barrier.
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OXO CENTERED HETEROTRINUCLEAR TRANSITION METAL CAR- BOXYLATE COMPLEXES 5,~(57)Fe MOSSBAUER SPECTRA AND ELEC-TRON TRANSFER PROPERTIES OF COMPLEXES Fe_2MO(RCOO)_6L_3(M= Mn,Co,Ni) |
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Abstract: | The 57Fe Mossbauer spectra of mixed-valence heterotrinuclear carboxylate complexes, Fe2MO(OOCCH3)6Py3]. Py (M = Mn,Co,Ni,Py = Pyridine) and Fe2MO-(OOCCC13 )6THF3 (M = Mn, Co, Ni, THF = Tetrahydrofuran ) indicated that these Fe2M complexes are all valence-trapped on the 57Fe Mossbauer time scale (10-8s) both at 77 K and at room temperature. Expanding the PKS model to asymmetric tricenteral systems showed that intramolecular electron transfer in Fe2M complexes is difficult due to asymmetry of the Fe2MO(RCOO)6L3molecule and high potential-energy barrier. |
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