Silica-Based Materials in Methane Conversion: A Two-Decade Bibliometric and Literature Review (1995–2022)

IF 2.8 3区 化学 Q2 CHEMISTRY, APPLIED Topics in Catalysis Pub Date : 2024-04-04 DOI:10.1007/s11244-024-01932-w
Mansur Alhassan, Aishah Abdul Jalil, Armstrong Ighodalo Omoregie, Mahadi Bin Bahari, Thuan Van Tran, Abiodun Abdulhameed Amusa
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Abstract

The potential of silica (SiO2)-based materials in environmental remediation and energy production, particularly in the conversion of methane (CH4) with carbon dioxide (CO2) to fuels (synthesis gas, mixture of carbon monoxide and hydrogen) via dry reforming of methane (DRM), cannot be overemphasized. In this study, the significance of fibrous SiO2 in minimizing waste and optimizing resource utilization through the exploration of CO2 applications, its environmental consequences, the assessment of commercialization prospects, and the role of silica-based materials in environmental remediation are comprehensively presented. Analysis of research documents spanning from 1995 to 2022 is presented with an examination of 3122 Keywords Plus (ID) and 1211 Author's Keywords from these publications, which revealed trending themes, major funding institutions, prolific countries, notable authors, and leading journals. The findings underscore China’s dominance as the most productive country in terms of publications and citations (101, 2127), closely trailed by Iran (55, 688), India (47, 675), the USA (39, 864), Japan (26, 342), France (21, 425), Germany (18, 816), Spain (17, 309), South Korea (16, 239), and Malaysia (12, 282). The investigation inveils that implementing renewable energy-powered direct air capture demands a comprehensive strategy, addressing the potential negative impacts of SiO2 nanoparticles and their interaction with biological components and environmental elements. This study elucidates the potential applications and commercialization prospects for fibrous SiO2 materials, especially their incorporation into carbon capture and utilization technologies, thereby expanding the range of carbon–neutral solutions.

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甲烷转化中的硅基材料:二十年文献计量和文献综述(1995-2022 年)
二氧化硅(SiO2)基材料在环境修复和能源生产方面的潜力无论怎样强调都不为过,特别是通过甲烷干转化(DRM)将甲烷(CH4)与二氧化碳(CO2)转化为燃料(合成气、一氧化碳和氢气的混合物)。本研究全面介绍了纤维状二氧化硅通过探索二氧化碳的应用、其环境后果、商业化前景评估以及硅基材料在环境修复中的作用,在最大限度减少废物和优化资源利用方面的意义。报告分析了 1995 年至 2022 年期间的研究文献,研究了这些文献中的 3122 个关键词加(ID)和 1211 个作者关键词,揭示了趋势主题、主要资助机构、多产国家、著名作者和主要期刊。调查结果表明,就出版物和引用次数而言,中国是最多产的国家(101,2127 次),紧随其后的是伊朗(55,688 次)、印度(47,675 次)、美国(39,864 次)、日本(26,342 次)、法国(21,425 次)、德国(18,816 次)、西班牙(17,309 次)、韩国(16,239 次)和马来西亚(12,282 次)。调查揭示,实施以可再生能源为动力的直接空气捕集需要一个全面的战略,解决二氧化硅纳米粒子的潜在负面影响及其与生物成分和环境因素的相互作用。本研究阐明了纤维状二氧化硅材料的潜在应用和商业化前景,特别是将其纳入碳捕获和利用技术,从而扩大碳中和解决方案的范围。
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来源期刊
Topics in Catalysis
Topics in Catalysis 化学-物理化学
CiteScore
5.70
自引率
5.60%
发文量
197
审稿时长
2 months
期刊介绍: Topics in Catalysis publishes topical collections in all fields of catalysis which are composed only of invited articles from leading authors. The journal documents today’s emerging and critical trends in all branches of catalysis. Each themed issue is organized by renowned Guest Editors in collaboration with the Editors-in-Chief. Proposals for new topics are welcome and should be submitted directly to the Editors-in-Chief. The publication of individual uninvited original research articles can be sent to our sister journal Catalysis Letters. This journal aims for rapid publication of high-impact original research articles in all fields of both applied and theoretical catalysis, including heterogeneous, homogeneous and biocatalysis.
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