Al-doped LiVPO4F cathode materials LiAlxV1-xPO4F were prepared by two-step reactions based on a car-bothermal reduction (CTR) process. The properties of the Al-doped LiVPO4F were investigated by X-ray diffraction (...Al-doped LiVPO4F cathode materials LiAlxV1-xPO4F were prepared by two-step reactions based on a car-bothermal reduction (CTR) process. The properties of the Al-doped LiVPO4F were investigated by X-ray diffraction (XRD),scanning electron microscopy (SEM),and electrochemical measurements. XRD studies show that the Al-doped LiVPO4F has the same triclinic structure (space group p-↑1 ) as the undoped LiVPO4F. The SEM images exhibit that the particle size of Al-doped LiVPO4F is smaller than that of the undoped LiVPO4F and that the smallest particle size is only about 1 μm. The Al-doped LiVPO4F was evaluated as a cathode material for secondary lithium batteries,and exhibited an improved reversibility and cycleability,which may be attributed to the addition of Al^3+ ion by stabilizing the triclinic structure.展开更多
The variations of chemical bonding characteristics in doped SnO,-base inert anodes with various dopants are studied using CNDO/2 quantum chemical calculations.A new model of conductivity is derived.which is checked wi...The variations of chemical bonding characteristics in doped SnO,-base inert anodes with various dopants are studied using CNDO/2 quantum chemical calculations.A new model of conductivity is derived.which is checked with literature data and our experimental results.Proper dopants can be selected with the model to reduce the resistivity of said electrode effectively.展开更多
文摘Al-doped LiVPO4F cathode materials LiAlxV1-xPO4F were prepared by two-step reactions based on a car-bothermal reduction (CTR) process. The properties of the Al-doped LiVPO4F were investigated by X-ray diffraction (XRD),scanning electron microscopy (SEM),and electrochemical measurements. XRD studies show that the Al-doped LiVPO4F has the same triclinic structure (space group p-↑1 ) as the undoped LiVPO4F. The SEM images exhibit that the particle size of Al-doped LiVPO4F is smaller than that of the undoped LiVPO4F and that the smallest particle size is only about 1 μm. The Al-doped LiVPO4F was evaluated as a cathode material for secondary lithium batteries,and exhibited an improved reversibility and cycleability,which may be attributed to the addition of Al^3+ ion by stabilizing the triclinic structure.
文摘The variations of chemical bonding characteristics in doped SnO,-base inert anodes with various dopants are studied using CNDO/2 quantum chemical calculations.A new model of conductivity is derived.which is checked with literature data and our experimental results.Proper dopants can be selected with the model to reduce the resistivity of said electrode effectively.
