新兴固态能源材料的同步加速器瞬态x射线吸收光谱

IF 6.1 Q2 CHEMISTRY, PHYSICAL Chemical physics reviews Pub Date : 2023-06-01 DOI:10.1063/5.0133227
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摘要

合理设计用于高效太阳能转换过程的尖端材料是一项具有挑战性的任务,这需要从根本上了解光诱导物理和化学反应过程中的作用机制。为了应对这些问题,该领域的进展将注意力转向了使用时间分辨光谱技术来解决这些光诱导反应中涉及的多种中间物种。由于泵浦-探针技术的出现,导致了各种时间分辨光谱方法的发展,在理解能量材料的光物理和光化学性质(如激发态动力学、电荷转移机制、电荷分离动力学等)方面取得了重大进展。基于同步加速器的x射线瞬态吸收(XTA)光谱是揭示材料结构与其光物理性质直接相关性的最重要的时间分辨技术之一,因为它具有同时直接观察电子和结构演化的独特能力。这项工作的目的是系统地概述使用XTA捕捉新兴固态能源材料中与激发态和电荷分离动力学相关的结构动力学的最新进展。
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Synchrotron based transient x-ray absorption spectroscopy for emerging solid-state energy materials
The rational design of cutting-edge materials for an efficient solar energy conversion process is a challenging task, which demands a fundamental understanding of the mechanisms operative during the photoinduced physical and chemical reactions. In response to these issues, progress in the field has steered attention toward the use of time-resolved spectroscopic techniques to resolve the multiple intermediate species involved in these photoinduced reactions. Thanks to the advent of pump–probe technique, which leads to the development of various time-resolved spectroscopic methods, significant progress has been made in understanding the photophysical and photochemical properties (e.g., excited state dynamics, charge transfer mechanism, charge separation dynamics, etc.) of energy materials. Synchrotron-based x-ray transient absorption (XTA) spectroscopy is one of the most important time-resolved techniques to unravel the direct correlation of the material structure with their photophysical properties owing to its unique capability in directly observing electronic and structural evolution simultaneously. The aim of this work is to provide a systematic overview of the recent progress in using XTA for capturing the structural dynamics associated with excited state and charge separation dynamics in emerging solid-state energy materials.
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