摘要
The increased use of rechargeable batteries in portable electronic devices and the continuous develop-ment of novel applications (e.g. transportation and large scale energy storage), have raised a strong de-mand for high performance batteries with increased energy density, cycle and calendar life, safety andlower costs. This triggers significant efforts to reveal the fundamental mechanism determining batteryperformance with the use of advanced analytical techniques. However, the inherently complex character-istics of battery systems make the mechanism analysis sophisticated and difficult. Synchrotron radiationis an advanced collimated light source with high intensity and tunable energies. It has particular ad-vantages in electronic structure and geometric structure (both the short-range and long-range structure)analysis of materials on different length and time scales. In the past decades, synchrotron X-ray tech-niques have been widely used to understand the fundamental mechanism and guide the technologicaloptimization of batteries. In particular, in situ and operando techniques with high spatial and temporalresolution, enable the nondestructive, real time dynamic investigation of the electrochemical reaction,and lead to significant deep insights into the battery operation mechanism. This review gives a brief introduction of the application of synchrotron X-ray techniques to the inves-tigation of battery systems. The five widely implicated techniques, including X-ray diffraction (XRD), PairDistribution Function (PDF), Hard and Soft X-ray absorption spectroscopy (XAS) and X-ray photoelectronspectroscopy (XPS) will be reviewed, with the emphasis on their in situ studies of battery systems during cycling.
The increased use of rechargeable batteries in portable electronic devices and the continuous develop-ment of novel applications (e.g. transportation and large scale energy storage), have raised a strong de-mand for high performance batteries with increased energy density, cycle and calendar life, safety andlower costs. This triggers significant efforts to reveal the fundamental mechanism determining batteryperformance with the use of advanced analytical techniques. However, the inherently complex character-istics of battery systems make the mechanism analysis sophisticated and difficult. Synchrotron radiationis an advanced collimated light source with high intensity and tunable energies. It has particular ad-vantages in electronic structure and geometric structure (both the short-range and long-range structure)analysis of materials on different length and time scales. In the past decades, synchrotron X-ray tech-niques have been widely used to understand the fundamental mechanism and guide the technologicaloptimization of batteries. In particular, in situ and operando techniques with high spatial and temporalresolution, enable the nondestructive, real time dynamic investigation of the electrochemical reaction,and lead to significant deep insights into the battery operation mechanism. This review gives a brief introduction of the application of synchrotron X-ray techniques to the inves-tigation of battery systems. The five widely implicated techniques, including X-ray diffraction (XRD), PairDistribution Function (PDF), Hard and Soft X-ray absorption spectroscopy (XAS) and X-ray photoelectronspectroscopy (XPS) will be reviewed, with the emphasis on their in situ studies of battery systems during cycling.
基金
the National Natural Science Foundation of China (Grant nos.21233004,21303147 and 21473148,etc.)
the National Key Research and Development Program (Grant no.2016YFB0901500)
