摘要
Recently,Li-CO_(2) battery has gradually become a research hotspot due to its high discharge capacity,energy density and environmental benefits.However,it has been an important problem for researchers because of its slow decomposition kinetics and difficult to generalize to practical application.Herein,we prepared copper polyphthalocyanine-carbon nanotubes composites(CuPPc-CNTs)by solvothermal in-situ polymerization of copper phthalocyanine on the surface of carbon nanotubes as cathode for reversible Li-CO_(2) batteries,which exhibits a high discharge capacity of 18,652.7 mAh·g^(-1) at current density of 100 mA·g^(-1),1.64 V polarization at 1,000 mA·g^(-1),and a stable cycles number of 160 is close to 1,630 h of charge-discharge process at 200 mA·g^(-1).Copper polyphthalocyanine has highly efficient copper single-atom catalytic sites with excellent CO_(2) adsorption and activation,while carbon nanotubes provide a conductive network.The synergistic effect of the two compounds enables it to have excellent catalytic activity.The density functional theory(DFT)calculation proved that the addition of copper polyphthalocyanine significantly improved the CO_(2) adsorption and activation process.This study provides an opportunity for the research of covalent organic polymers(COPs)single-atom catalyst in Li-CO_(2) battery field.
基金
The authors acknowledge the financial support for this work from the Natural Science Foundation of Jiangsu Province(Nos.BK20190413 and BK20210616)
the National Defense Technology Innovation Special Zone Spark Project(No.2016300TS00911901)
the China Postdoctoral Science Foundation(No.2019M661825)
the Jiangsu Key Laboratory of Electrochemical Energy-Storage Technologies(EEST2021-2)
the Funding of Research and Practice Innovation Program in NUAA for Graduate Education(No.xcxjh20210605)
a Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD).