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提供机制和性能见解的高级光谱学

Observing dynamics processes in energy materials - Advanced spectroscopy providing insights in mechanisms and performance
课程网址: https://videolectures.net/preglov_tromp_observing/  
主讲教师: Moniek Tromp
开课单位: Preglov kolokvij会议
开课时间: 2020-03-02
课程语种: 英语
中文简介:
减少二氧化碳排放的一个重要因素是将内燃机汽车改为电动电池汽车。由此产生的可再生能源可用于个人出行以及多余能量的临时中间储存。然而,可行的电动出行概念需要具有高比能的稳定循环电池(最大限度地减轻重量,最大限度地扩大行驶里程)。锂离子电池广泛应用于手机和笔记本电脑等领域,很可能成为未来电动汽车的关键。另一种有前景的电池是锂硫、金属锂和容量明显更高的全固态电池,或者基于铁的更可持续的电池。对这种电池的要求提出了重大挑战;例如能量容量、失活/稳定性和安全性。因此,需要对充电、放电和失活机制有详细的了解,最好是定量的和空间分辨的。X射线吸收光谱(XAS)是一种表征技术,以时间和空间分辨的方式提供所研究材料的详细电子和结构信息。在这里,我将解释XAS在电池研究方面的优势和局限性。将描述一种新的操作性XAS细胞设计,包括进行可靠实验(电化学和光谱)的挑战。该电池允许时间和空间分辨XAS,提供对分别在电极和电解质中形成的中间体的类型、位置和可逆性的深入了解。将讨论在不同电池类型的循环和去活化机制方面获得的见解,并描述燃料电池等其他能源材料以及未来的研究方向。
课程简介: An important element in the reduction of CO2 is the change of vehicles with internal combustion engines to electric battery powered vehicles. The as such produced renewable energy can be used for individual mobility as well as for a temporary intermediate storage of excess energy. A viable electric mobility concept requires however stable cycle batteries with high specific energy (minimising weight, maximising driving range). Li ion batteries are widely used in applications such as mobile phones and laptops, and will likely be key to future electromobility. Alternative promising battery are lithium sulphur, metallic lithium and full solid state batteries with significantly higher capacities, or more sustainable batteries based on iron. The requirements for such batteries present major challenges; e.g. energy capacity, deactivation/stability and safety. A detailed understanding of the charge, discharge and deactivation mechanisms are thus required, preferably quantitative and spatially resolved. X-ray absorption spectroscopy (XAS) is a characterisation technique which provides detailed electronic and structural information on the material under investigation, in a time- and spatially resolved manner. Here, I will explain the strengths and limitations of XAS for battery research. A novel operando XAS cell design will be described, including the challenges to perform reliable experiments (electrochemically and spectroscopically). The cell allows time and spatial resolved XAS, providing insights in the type, location and reversibility of the intermediates formed in electrodes and electrolyte separately. Obtained insights in cycling and deactiviation mechanisms for the different battery types will be discussed and other energy materials like fuel cells as well as future research directions described.
关 键 词: 能源材料; 动力学; 高级光谱学
课程来源: 视频讲座网
数据采集: 2024-04-25:liyq
最后编审: 2024-04-25:liyq
阅读次数: 7

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