Recent advances in the application of in situ X-ray diffraction techniques to characterize phase transitions in Fischer–Tropsch synthesis catalysts

Green Carbon Pub Date : 2025-03-01 DOI:10.1016/j.greenca.2024.09.009

Fan Bo , Kangzhou Wang , Jie Liang , Tiejian Zhao , Jie Wang , Yurong He , Xiaojiao Yang , Jianli Zhang , Yongjun Jiang , Xiaojing Yong , Wei Zhang , Xinhua Gao

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Abstract

Fischer–Tropsch synthesis (FTS), an important route for the conversion of syngas into high-value-added chemicals, often relies on Fe- and Co-based catalysts. Catalyst performance has been improved by promoters, supports, and optimization of the activation process; however, in-depth studies on the evolution of the phase during catalyst activation, reaction, and deactivation are still lacking. In situ X-ray diffraction (XRD) effectively reveals the phase evolution of catalytic materials in real time. In this review, the use of in situ XRD to elucidate the influence of activation mode, promoters, and supports on the phase evolution and performance of Fe- and Co-based catalysts is examined. The challenges and opportunities in studying the phase evolution of FTS catalysts using in situ XRD techniques are summarized and discussed, and theoretical guidance for the design of FTS catalysts is provided in order to promote their development.

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原位x射线衍射技术表征费托合成催化剂相变的最新进展

费托合成（FTS）是合成气转化为高附加值化学品的重要途径，通常依赖于铁基和钴基催化剂。催化剂性能通过促进剂、载体和活化工艺的优化得到了提高；然而，对于催化剂活化、反应和失活过程中相的演变，目前还缺乏深入的研究。原位x射线衍射（XRD）能实时有效地揭示催化材料的相演化过程。本文利用原位x射线衍射（XRD）研究了激活方式、促进剂和载体对铁基和钴基催化剂的相演化和性能的影响。总结和讨论了利用原位XRD技术研究FTS催化剂相演化的挑战和机遇，为FTS催化剂的设计提供理论指导，以促进其发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Green Carbon

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