Excellent Electrocatalytic Activity of Binuclear Phthalocyanines in the Electrolyte of Lithium/Thionyl Chloride Battery

Excellent Electrocatalytic Activity of Binuclear Phthalocyanines in the Electrolyte of Lithium/Thionyl Chloride Battery

Binuclear nitro-phthalocyanines (M2(PcTN)2O) were synthesized and reduced to binuclear amino-phthalocyanines (M2(PcTA)2O) as high-efficiency catalysts to promote the electrochemical properties of lithium/thionyl chloride (Li/SOCl2) battery. The catalytic performances of M2(PcTN)2O and M2(PcTA)2O wer...

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Veröffentlicht in:Journal of the Electrochemical Society 2016-01, Vol.163 (8), p.A1503-A1511
Hauptverfasser: Liu, Zhijiao, Gao, Ruimin, Jiang, Qinqin, Zhang, Ronglan, Zhao, Jianshe, Wang, Junlong
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container_end_page A1511
container_issue 8
container_start_page A1503
container_title Journal of the Electrochemical Society
container_volume 163
creator Liu, Zhijiao
Gao, Ruimin
Jiang, Qinqin
Zhang, Ronglan
Zhao, Jianshe
Wang, Junlong
description Binuclear nitro-phthalocyanines (M2(PcTN)2O) were synthesized and reduced to binuclear amino-phthalocyanines (M2(PcTA)2O) as high-efficiency catalysts to promote the electrochemical properties of lithium/thionyl chloride (Li/SOCl2) battery. The catalytic performances of M2(PcTN)2O and M2(PcTA)2O were evaluated by adding a small amount of catalysts into the electrolyte. Elemental analysis, Fourier transform infrared (FTIR), ultraviolet-visible (UV-vis), Thermal technique (TGA) and scanning electron microscope (SEM) were employed to characterize the final products. The discharge time of the battery catalyzed by M2(PcTN)2O and M2(PcTA)2O was lengthened by 181∼510 s and 198∼564 s, respectively. The results reveal that battery capacities had been improved approximately 16.74∼47.91% and energy increased by 14.95∼44.80% compared with the bare batteries, which should be attributed to the electronic configurations of the metal ions, the phthalocyanine rings and the synergistic effect. In addition, according to the cyclic voltammetric analysis, catalytic mechanism of the synthesized binuclear phthalocyanines in the battery was speculated.
doi_str_mv 10.1149/2.0181608jes
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The catalytic performances of M2(PcTN)2O and M2(PcTA)2O were evaluated by adding a small amount of catalysts into the electrolyte. Elemental analysis, Fourier transform infrared (FTIR), ultraviolet-visible (UV-vis), Thermal technique (TGA) and scanning electron microscope (SEM) were employed to characterize the final products. The discharge time of the battery catalyzed by M2(PcTN)2O and M2(PcTA)2O was lengthened by 181∼510 s and 198∼564 s, respectively. The results reveal that battery capacities had been improved approximately 16.74∼47.91% and energy increased by 14.95∼44.80% compared with the bare batteries, which should be attributed to the electronic configurations of the metal ions, the phthalocyanine rings and the synergistic effect. 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The results reveal that battery capacities had been improved approximately 16.74∼47.91% and energy increased by 14.95∼44.80% compared with the bare batteries, which should be attributed to the electronic configurations of the metal ions, the phthalocyanine rings and the synergistic effect. 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The results reveal that battery capacities had been improved approximately 16.74∼47.91% and energy increased by 14.95∼44.80% compared with the bare batteries, which should be attributed to the electronic configurations of the metal ions, the phthalocyanine rings and the synergistic effect. In addition, according to the cyclic voltammetric analysis, catalytic mechanism of the synthesized binuclear phthalocyanines in the battery was speculated.</abstract><pub>The Electrochemical Society</pub><doi>10.1149/2.0181608jes</doi><tpages>9</tpages></addata></record>
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