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.再生利于此次光反射的有力点光,的分析人工能否来来进行重要性发热能源和环保再生利于订做的最优秀集体装修产品的原位试验。此次光反射配制实现不相同的点光线展示 好几种高技术,为的分析人工展示 跨跃不相同周期和跨距尺度大的机构和催化洞察力力。举例子,原位粉未X放放射性元素衍射(PXRD)再生利于此次光反射的高強度和甄别率,较快的分析最优秀集体装修产品的新机制。时候,X放放射性元素挥发光谱仪(XAS)再生利于此次光反射的可以调节节电量性能指标,呈现装修产品的原子团跨距离、键合价和防氧化环境等要素。首次演讲会将浅论在此次光反射试验室来来进行的多个产品最优秀集体装修产品成功案例的分析,突出等等最简单的方法的高效性。