主讲人 : Dr. Qinfen Gu
Utilizing the intense beam of Synchrotron radiation, researchers can conduct in-situ experiment of advanced materials tailored for energy and environmental applications. Synchrotron facilities offer a diverse range of techniques through various beamlines, providing structural and chemical insights across varying time and length scales. For instance, in-situ powder X-ray diffraction (PXRD) leverages the high intensity and resolution of synchrotron radiation to swiftly investigate the mechanisms of the advanced materials. Simultaneously, X-ray absorption spectroscopy (XAS) utilizes the adaptable energy properties of synchrotron radiation to reveal details about interatomic distances, bonding valences, and oxidation states of materials. This presentation will explore a series of case studies involving advanced materials conducted at the synchrotrons, highlighting the effectiveness of these methodologies.回收回收巧用发送到大范围地扩散的很强散射,浅议人工会完成涉及电力能源和工作环境高技术应用定制网站的好集体原用料的原位测试。发送到大范围地扩散设备顺利通过与众不同的的散电子束具备好几种高技术,为浅议人工具备跨跃与众不同的时间间隔和总长度似然法的节构和电学调研力。假如,原位粉末状原用料X电子束衍射(PXRD)回收回收巧用发送到大范围地扩散的高強度和判定率,讯速浅议好集体原用料的规则。时候,X电子束融合光谱图(XAS)回收回收巧用发送到大范围地扩散的可调节节约能源量性质,具体分析原用料的分子宽度离、键合价和脱色模式等细节描写。每一次演讲视频将浅议在发送到大范围地扩散测试室完成的一系好集体原用料典型案例浅议,展现以上工艺的有效果性。