Abstract
The lithium-carbon dioxide (Li-CO2 ) battery as a novel metal-air battery has a high specific energy density and unique CO2 conversion ability. However, its further development is limited by incomplete product decomposition resulting in poor cycling and rate performance. In this work, Cu-tetra(4-carboxyphenyl) porphyrin (Cu-TCPP) nanosheets are prepared through the solvothermal method successfully. An efficient Li-CO2 battery with Cu-TCPP as catalyst achieves a high discharge capacity of 20393 mAh g-1 at 100mA g-1 , a long-life cycle of 123 at 500mA g-1 , and a lower overpotential of 1.8V at 2000mA g-1 . Density functional theory calculation reveals that Cu-TCPP has higher adsorption energy of CO2 and Li2 CO3 compared with TCPP, and a large number of electrons gather near the Cu-N4 active sites in Cu-TCPP. Therefore, the excellent CO2 capture ability of the porphyrin ligand and the synergic catalytic effect of Cu atom in Cu-TCPP promote the thermodynamics and kinetics of CO2 reduction and evolution processes.
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