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Binuclear Metal Phthalocyanines Catalysis for Li/SOCl 2 Batteries: An Experimental and Computational Study
Author(s) -
Zhang Ying,
Zhang Ronglan,
Yang Fei,
Zhao Jianshe
Publication year - 2018
Publication title -
energy technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.91
H-Index - 44
eISSN - 2194-4296
pISSN - 2194-4288
DOI - 10.1002/ente.201700929
Subject(s) - catalysis , electrochemistry , chemistry , density functional theory , cyclic voltammetry , battery (electricity) , electrolyte , metal , inorganic chemistry , electrode , molecular orbital , materials science , computational chemistry , molecule , thermodynamics , power (physics) , organic chemistry , physics
Four kinds of binuclear metal phthalocyanines (MPcs) complexes M 2 (PcTN) 2 Nap and M 2 (PcTA) 2 Nap (M=Ni II , Zn II ) are synthesized and used in Li/SOCl 2 battery as electrocatalysts to enhance capacity and discharge voltage. Density functional theory (DFT) calculations are carried out to investigate the improvement in electrochemical performance by carefully observing the shape of the frontier molecular orbitals (MOs). It is confirmed that a close relationship exists between MOs and catalytic performance of MPcs. The variation in reduction potentials of electrolyte SOCl 2 are also related to the MOs. Based on cyclic voltammetry measurements and the energy gap of MOs, a reaction mechanism that involves an irreversible two‐step electron transfer process can be deduced, and a better strategy for the selection of catalysts is obtained.