With the increasing demand for large-scale battery systems in electric vehicles(EVs) and smart renewable energy grids, organic materials including small molecules and polymers utilized as electrodes in rechargeable ...With the increasing demand for large-scale battery systems in electric vehicles(EVs) and smart renewable energy grids, organic materials including small molecules and polymers utilized as electrodes in rechargeable batteries have received increasing attraction. In recent years, two-dimensional(2D) organic materials possessing planar layered architecture exhibit optional chemical modification, high specific surface area as well as unique electrical/magnetic properties, which have been emerging as the promising functional materials for wide applications in optoelectronics, catalysis, sensing, etc. Integrating with high-density redox-active sites and hierarchical porous structure, significant achievements in 2D organic materials as cathode materials for alkali-metal-ion batteries have been witnessed. In this review, the recent progress in synthetic approaches, structure analyses, electrochemical characterizations of 2D organic materials as well as their application in alkali-metal-ion batteries containing lithium ion battery(LIB), lithium sulfur battery(LSB), lithium air battery(LAB) and sodium ion battery(SIB) are summarized systematically,and their current challenges including cycling stability and electron conductivity for cathode materials in battery fields are also discussed.展开更多
基金the financial support from the 973 Programs of China(2013CBA01602)NSFC for Excellent Youth Scholars(51722304)+4 种基金NSFC(21720102002,21574080 and 61306018)Shanghai Committee of Science and Technology(15JC1490500,16JC1400703)and Open Project Program of the State Key Laboratory of Supramolecular Structure and Materials(sklssm201732,Jilin University)State Key Laboratory of Inorganic Synthesis and Preparative Chemistry(2016-08,Jilin University)State Key Laboratory for Mechanical Behavior of Materials(20161803,Xi’an Jiaotong University)
文摘With the increasing demand for large-scale battery systems in electric vehicles(EVs) and smart renewable energy grids, organic materials including small molecules and polymers utilized as electrodes in rechargeable batteries have received increasing attraction. In recent years, two-dimensional(2D) organic materials possessing planar layered architecture exhibit optional chemical modification, high specific surface area as well as unique electrical/magnetic properties, which have been emerging as the promising functional materials for wide applications in optoelectronics, catalysis, sensing, etc. Integrating with high-density redox-active sites and hierarchical porous structure, significant achievements in 2D organic materials as cathode materials for alkali-metal-ion batteries have been witnessed. In this review, the recent progress in synthetic approaches, structure analyses, electrochemical characterizations of 2D organic materials as well as their application in alkali-metal-ion batteries containing lithium ion battery(LIB), lithium sulfur battery(LSB), lithium air battery(LAB) and sodium ion battery(SIB) are summarized systematically,and their current challenges including cycling stability and electron conductivity for cathode materials in battery fields are also discussed.
