Halloysite-kojic acid conjugate: A sustainable material for the photocatalytic CO2 reduction and fixation for cyclic carbonates production

IF 7.2 2区工程技术 Q1 CHEMISTRY, MULTIDISCIPLINARY Journal of CO2 Utilization Pub Date : 2024-07-01 DOI:10.1016/j.jcou.2024.102865

Erika Saccullo , Vincenzo Patamia , Federica Magaletti , Giusy Dativo , Monia Camarda , Roberto Fiorenza , Vincenzina Barbera , Giuseppe Floresta , Antonio Rescifina

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Abstract

This study introduces a straightforward synthesis method for producing a hybrid material composed of halloysite and kojic acid, which catalyzes carbon dioxide (CO₂) conversion processes. Kojic acid, derived from malted rice fermentation, exhibits inherent chelating properties that facilitate the introduction of copper ions onto the material’s surface. Copper ions, an economically viable alternative to noble metals, catalyze CO₂ conversion reactions effectively. The hybrid catalyst was evaluated for two distinct CO₂ conversion pathways: photocatalytic methane production under simulated sunlight and CO₂ fixation into cyclic carbonates via epoxide reactions. The hybrid material demonstrates remarkable catalytic activity under mild conditions, achieving high conversion efficiencies at 45 °C for methane production and 70 °C for carbonate fixation at atmospheric pressure. Conversion of 31 % and 89 % were achieved for the photocatalytic CO₂ reduction and the carbonate fixation, respectively. FT-IR spectra confirmed the functionalization of the material. Additionally, its organic/inorganic hybrid nature is complemented by excellent thermal stability, as studied by TGA. It enables repeated utilization, maintaining a 25 % catalytic activity for methane production and 70 % for carbonate fixation after the fourth reuse. This research highlights the potential of using naturally derived materials for sustainable CO₂ mitigation.

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埃洛石-曲酸共轭物：用于光催化二氧化碳还原和固定以生产环状碳酸盐的可持续材料

本研究介绍了一种直接合成方法，用于生产由哈洛来石和曲酸组成的混合材料，这种材料可催化二氧化碳（CO2）转化过程。曲酸提取自麦芽米发酵，具有固有的螯合特性，有助于将铜离子引入材料表面。铜离子是贵金属的一种经济可行的替代品，能有效催化二氧化碳转化反应。混合催化剂针对两种不同的二氧化碳转化途径进行了评估：模拟阳光下的光催化甲烷生产和通过环氧化反应将二氧化碳固定为环状碳酸盐。该混合材料在温和条件下表现出显著的催化活性，在 45 °C 的甲烷生产和 70 °C 的常压碳酸盐固定过程中实现了较高的转化效率。光催化二氧化碳还原和碳酸盐固定的转化率分别达到 31% 和 89%。傅立叶变换红外光谱证实了材料的功能化。此外，该材料的有机/无机混合性质还具有出色的热稳定性，热重分析仪（TGA）对其进行了研究。这种材料可以重复使用，在第四次重复使用后，甲烷生产的催化活性保持在 25%，碳酸盐固定的催化活性保持在 70%。这项研究凸显了利用天然衍生材料可持续减缓二氧化碳排放的潜力。

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来源期刊

Journal of CO2 Utilization CHEMISTRY, MULTIDISCIPLINARY-ENGINEERING, CHEMICAL

CiteScore

13.90

自引率

10.40%

发文量

406

审稿时长

2.8 months

期刊介绍： The Journal of CO2 Utilization offers a single, multi-disciplinary, scholarly platform for the exchange of novel research in the field of CO2 re-use for scientists and engineers in chemicals, fuels and materials. The emphasis is on the dissemination of leading-edge research from basic science to the development of new processes, technologies and applications. The Journal of CO2 Utilization publishes original peer-reviewed research papers, reviews, and short communications, including experimental and theoretical work, and analytical models and simulations.