水热合成 ZnZrO x 催化剂用于 CO2 加氢制甲醇:pH 值对结构和活性的影响。

Issaraporn Rakngam, Gustavo A S Alves, Nattawut Osakoo, Jatuporn Wittayakun, Thomas Konegger, Karin Föttinger
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引用次数: 0

摘要

随着工业领域实现碳中和的必要性日益增加,催化二氧化碳加氢转化为甲醇已被广泛认为是利用捕获的二氧化碳的关键策略之一。因此,与传统的铜基材料相比,ZnZrO x 具有卓越的稳定性和多功能性,因此开发 ZnZrO x 等替代催化剂引起了广泛关注。在这项研究中,ZnZrO x 是通过水热合成法在不同的合成 pH 值(7 至 10)条件下制备的。在 2.0 兆帕和 250 °C条件下,pH 值为 10 的 ZnZrO x 的甲醇选择性为 95%,二氧化碳转化率为 3.4%。根据表征,尽管表面锌的含量在 pH 值为 8 和 10 之间没有增加,但基本 pH 值条件能够形成丰富的 t-ZrO2,并随后将 Zn2+ 加入该相中。不过,合成 pH 值与表面氧含量和二氧化碳吸附能力相关,这可能是合成 pH 值越高催化活性越高的重要原因。然而,在 pH 值为 10 的条件下进行合成时,在 250 °C 以上会出现对甲醇的选择性降低的现象,这可能是氧化锌形成过多的结果。有趣的是,在水热法中使用 NH4OH 而不是 NaOH 可以防止这种次生相的产生,并略微提高选择性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrothermal synthesis of ZnZrO x catalysts for CO2 hydrogenation to methanol: the effect of pH on structure and activity.

With the growing necessity of achieving carbon neutrality in the industrial sector, the catalytic hydrogenation of carbon dioxide into methanol has been widely considered one of the key strategies for the utilization of captured CO2. For this reason, the development of alternative catalysts such as ZnZrO x has attracted considerable interest, given its superior stability and versatility in comparison to the conventional Cu-based materials. In this work, ZnZrO x has been produced by a hydrothermal synthesis method at varied synthesis pH between 7 and 10 and a positive association between pH and catalytic CO2 conversion is observed. At 2.0 MPa and 250 °C, ZnZrO x produced at pH 10 shows a methanol selectivity of 95% at a CO2 conversion of 3.4%. According to characterization, basic pH conditions enable the formation of abundant t-ZrO2 and the subsequent incorporation of Zn2+ into this phase, although the content of surface Zn does not increase between pH 8 and 10. Nevertheless, synthesis pH values can be correlated with surface oxygen content and CO2 adsorption capacity, which could be important contributors to the higher catalytic activity observed as a result of higher synthesis pH values. However, upon synthesis at pH 10, an inferior selectivity to methanol is observed above 250 °C, as a possible result of the excessive formation of ZnO. Interestingly, this secondary phase can be prevented and the selectivity can be slightly improved by utilizing NH4OH instead of NaOH in the hydrothermal method.

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