Fischer-Tropsch synthesis: Platinum promoted Co@HCS catalysts

IF 4.7 2区 化学 Q2 CHEMISTRY, PHYSICAL Applied Catalysis A: General Pub Date : 2024-07-01 DOI:10.1016/j.apcata.2024.119863
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Abstract

Hollow carbon sphere (HCS) nanoreactors were used as a catalyst support for Co, with Pt as a promoter. The hollow morphology of the HCSs nanoreactor was exploited to study the influence of the Pt promoter nanoparticle location relative to that of the Co3O4 (Co 10 wt%) nanoparticles (dCo = 3.5 – 12.5). Furthermore, the effect of Pt on the reduction behaviour and activity of the Co FTS catalyst was evaluated. The synthesis and use of Pt nanoparticles supported on/in Co@HCS FT catalysts to give CoPt@HCS and Pt/(Co@HCS) catalysts are reported. Electron microscopy, ex situ PXRD, BET, and TPR studies revealed that the prepared catalysts were successfully synthesized with well dispersed Co nanoparticles. It was observed that the proximity between the Co and Pt influenced the Co hcp/fcc ratios. A secondary hydrogen spillover effect was invoked to account for the reduction of Co3O4 on 1Pt/(10Co@HCS) at 335 °C. The complete reduction of Co3O4 to Co metal on 10Co1Pt@HCS at 350 °C was attributed to a primary hydrogen spillover effect. Following catalyst activation at 350 °C, the primary spillover process resulted in a catalyst exhibiting higher Fischer–Tropsch activity (approximately 2×) compared to both the unpromoted catalyst and catalysts where Pt and Co were separated by the HCS. This enhanced activity was partially attributed to the Co phases formed on the carbon support during reduction and the degree of catalyst reduction, which depended on the type of hydrogen spillover process. A comparison of the reduction ability of Os, Ru and Pt on the reduction of Co supported on/in HCSs and the impact of the promoter on Co hcp/fcc ratios is reported.

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费托合成:铂促进 Co@HCS 催化剂。
采用中空碳球(HCS)纳米反应器作为 Co 的催化剂载体,并以铂作为促进剂。利用中空碳球纳米反应器的中空形态,研究了铂促进剂纳米粒子位置相对于 Co3O4(Co 10 wt%)纳米粒子(dCo = 3.5 - 12.5)位置的影响。此外,还评估了铂对 Co FTS 催化剂还原行为和活性的影响。报告了铂纳米颗粒在 Co@HCS FT 催化剂上的合成和使用,从而得到 CoPt@HCS 和 Pt/(Co@HCS) 催化剂。电子显微镜、原位 PXRD、BET 和 TPR 研究表明,所制备的催化剂成功合成了分散良好的 Co 纳米颗粒。据观察,钴和铂之间的接近程度会影响钴的 hcp/fcc 比率。在 335 °C时,1Pt/(10Co@HCS)上的Co3O4被还原的原因是二次氢溢出效应。在 350 ℃ 时,10Co1Pt@HCS 上的 Co3O4 完全还原成金属 Co,这归因于一次氢溢出效应。催化剂在 350 ℃ 下活化后,与未促进的催化剂和铂与钴被氢碳酸盐分离的催化剂相比,一次溢出过程使催化剂表现出更高的费托合成活性(约 2 倍)。活性的提高部分归因于还原过程中在碳载体上形成的 Co 相以及催化剂的还原程度,这取决于氢溢出过程的类型。报告还比较了 Os、Ru 和 Pt 对以 HCS 为载体的 Co 的还原能力以及促进剂对 Co hcp/fcc 比率的影响。
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来源期刊
Applied Catalysis A: General
Applied Catalysis A: General 化学-环境科学
CiteScore
9.00
自引率
5.50%
发文量
415
审稿时长
24 days
期刊介绍: Applied Catalysis A: General publishes original papers on all aspects of catalysis of basic and practical interest to chemical scientists in both industrial and academic fields, with an emphasis onnew understanding of catalysts and catalytic reactions, new catalytic materials, new techniques, and new processes, especially those that have potential practical implications. Papers that report results of a thorough study or optimization of systems or processes that are well understood, widely studied, or minor variations of known ones are discouraged. Authors should include statements in a separate section "Justification for Publication" of how the manuscript fits the scope of the journal in the cover letter to the editors. Submissions without such justification will be rejected without review.
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