In-situ tracking CO2-assisted isothermal-isobaric synthesis of self-assembled Bi-based photocatalyst using novel SAXS/XRD/XAFS combined technique

IF 6.8 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yunpeng Liu  (, ), Shunzheng Zhao  (, ), Jiajun Zhong  (, ), Jianglong Liu  (, ), Baotong Chen  (, ), You Liao  (, ), Lei Yao  (, ), Zhongjun Chen  (, ), Buxing Han  (, ), Zhonghua Wu  (, )
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Abstract

The synthetic path of a catalyst determines its morphology, species, and performance, and in-situ monitoring the catalyst formation process is fascinating and challenging. Herein, a newly developed synchrotron radiation small-angle X-ray scattering/X-ray diffraction/X-ray absorption fine structure (SAXS/XRD/XAFS) combined technique was used to in-situ monitor the isothermal-isobaric synthesis process of CO2-assisted (BiO)2CO3 (BOC) photocatalyst, and the atomic near-neighbor structure, crystalline structure and nanoscale particle size evolution with reaction time were simultaneously captured. The results show that both polyvinyl pyrrolidone and CO2 formed uniformly-distributed nano-sized scatterers in the Bi-based precursor solution, presenting short-range ordered structures to a certain extent. The as-prepared BOC catalytic particles underwent the evolution process of initial Bi(OH)3 precipitate, early-stage formed KBiO2 molecules, intermediate amorphous (BiO)4CO3(OH)2 nanoparticles, and finally crystallized flower-like BOC particles self-assembled by nanosheets. The flower-like BOC particles, Bi/BOC composite, and Bi nanospheres were further prepared with different synthesis paths. Flower-like BOC particles showed the best photocatalytic degradation performance of RhB. Scavenger experiment and theoretical calculation revealed the photocatalytic mechanisms of BOC. This work has implications for path-dependent synthesis of other catalysts.

Abstract Image

利用新型 SAXS/XRD/XAFS 组合技术原位跟踪 CO2 辅助的等温-等压合成自组装 Bi 基光催化剂
催化剂的合成路径决定了催化剂的形态、种类和性能,而原位监测催化剂的形成过程是一项极具吸引力和挑战性的工作。本文采用新开发的同步辐射小角 X 射线散射/X 射线衍射/X 射线吸收精细结构(SAXS/XRD/XAFS)组合技术对 CO2-辅助(BiO)2CO3(BOC)光催化剂的等温等压合成过程进行了原位监测,同时捕获了原子近邻结构、结晶结构和纳米级粒径随反应时间的变化。结果表明,聚乙烯吡咯烷酮和二氧化碳在铋基前驱体溶液中都形成了均匀分布的纳米级散射体,在一定程度上呈现出短程有序结构。制备出的 BOC 催化粒子经历了初始 Bi(OH)3 沉淀、早期形成的 KBiO2 分子、中间无定形 (BiO)4CO3(OH)2 纳米粒子、最后由纳米片自组装成结晶花状 BOC 粒子的演化过程。通过不同的合成途径,进一步制备了花状 BOC 粒子、Bi/BOC 复合材料和 Bi 纳米球。花状 BOC 粒子对 RhB 的光催化降解性能最好。清道夫实验和理论计算揭示了 BOC 的光催化机理。这项工作对其他催化剂的路径依赖性合成具有重要意义。
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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来源期刊
Science China Materials
Science China Materials Materials Science-General Materials Science
CiteScore
11.40
自引率
7.40%
发文量
949
期刊介绍: Science China Materials (SCM) is a globally peer-reviewed journal that covers all facets of materials science. It is supervised by the Chinese Academy of Sciences and co-sponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China. The journal is jointly published monthly in both printed and electronic forms by Science China Press and Springer. The aim of SCM is to encourage communication of high-quality, innovative research results at the cutting-edge interface of materials science with chemistry, physics, biology, and engineering. It focuses on breakthroughs from around the world and aims to become a world-leading academic journal for materials science.
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