Citation: ZHANG Xiao-Hui, XU Zhi-Guang, NG Li-Zhen, XU Xuan, SHEN Gui-Xian, CHEN Hua-Bin, LIU Hai-Yang. Stability of trans-Dioxo Manganese(V) Corrole Complex[J]. Acta Physico-Chimica Sinica, ;2015, 31(6): 1069-1076. doi: 10.3866/PKU.WHXB201504022
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The stability of anionic trans-dioxo manganese(V) corrole complex and the protonated species structure were investigated using density functional theory (DFT) with B3LYP method. The calculation results show that trans-dioxo manganese(V) corrole complex has one σ and two π orbitals in its O=Mn=O bonds, which are composed of the d orbital of the manganese atom and p orbitals of the two oxygen atoms. Enhancement of the electron-withdrawing ability of substituents results in a decrease in the O=Mn=O bond lengths, and shifts the O=Mn=O Raman stretching vibration to a higher wavenumber. On protonation, one of the axial oxygen atoms gains two protons and is transformed into a water molecule. The manganese atom then cannot hold water tightly to form effective coordination bonds with water. This results in irreversible protonation of the trans-dioxo manganese(V) corrole complex, which leads to formation of an oxomanganese (V) corrole complex.
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