CeNiO3 perovskite nanoparticles synthesized using gelatin as a chelating agent for CO2 dry reforming of methane†

RSC sustainability Pub Date : 2024-10-30 DOI:10.1039/D4SU00268G

Usman Zahid, Wahid Sidik Sarifuddin, Abdul Hanif Mahadi, Holilah, Didik Prasetyoko and Hasliza Bahruji

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Abstract

CeNiO₃ perovskite nanoparticles were synthesized using gelatin as a chelating agent to catalyze the CO₂ dry reforming reaction. The optimization of gelatin concentration affects the formation of Ni coordinated on the B-sites of CeNiO₃. CeNiO₃ shows catalytic stability for 60 h with ∼50% CO₂/CH₄ conversion and a H₂/CO ratio of ∼0.8 when obtained using low concentrations of gelatin (0.05 g, 0.1 g). The exsolution of Ni nanoparticles from CeNiO₃ structures occurs during reduction treatment, expanding the crystal lattices of CeO₂. A high gelatin concentration (0.2 g) reduced Ni mobility and restricted Ni–Ce contacts. The uncoordinated Ni in CeNiO₃ exposes a high surface area (10.12 m² g⁻¹) for CH₄ dissociation, consequently increasing the H₂/CO ratio to ∼1.5 with 78% CH₄ and 53% CO₂ conversion. In situ DRIFTS analysis showed that CH₄ readily dissociates in the absence of CO₂, but CO₂ completes the reaction cycles by removing the carbon as CO gas.

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以明胶为螯合剂合成的 CeNiO3 包晶纳米粒子用于甲烷的 CO2 干法转化†。

使用明胶作为螯合剂合成了 CeNiO3 包晶纳米粒子，用于催化二氧化碳干重整反应。明胶浓度的优化会影响 CeNiO3 的 B 位上配位镍的形成。当使用低浓度明胶（0.05 克和 0.1 克）时，CeNiO3 的催化稳定性可达 60 小时，CO2/CH4 转化率为 50%，H2/CO 比率为 0.8。在还原处理过程中，CeNiO3 结构中的镍纳米颗粒发生溶解，从而扩大了 CeO2 的晶格。高浓度明胶（0.2 克）降低了镍的流动性，限制了镍-铈接触。CeNiO3 中的非配位镍为 CH4 解离提供了高表面积（10.12 m2 g-1），从而将 H2/CO 比率提高到 1.5，CH4 转化率为 78%，CO2 转化率为 53%。原位 DRIFTS 分析表明，在没有 CO2 的情况下，CH4 很容易解离，但 CO2 会以 CO 气体的形式除去碳，从而完成反应循环。

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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RSC sustainability

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0.60

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