The Emergence of CaO-MgO based Binary Oxides of Alkaline Earth Metals as Cost-effective Solid Base Heterogeneous Catalysts and Sorbents: (A Mini Review)

IF 0.3 Q4 CHEMISTRY, MULTIDISCIPLINARY

Oriental Journal Of Chemistry Pub Date : 2023-12-27 DOI:10.13005/ojc/390602

Siddaramagoud Bandalla, Satyanarayana Mavurapu, S. Jonnalagadda, Chandrashekar Vasam

{"title":"The Emergence of CaO-MgO based Binary Oxides of Alkaline Earth Metals as Cost-effective Solid Base Heterogeneous Catalysts and Sorbents: (A Mini Review)","authors":"Siddaramagoud Bandalla, Satyanarayana Mavurapu, S. Jonnalagadda, Chandrashekar Vasam","doi":"10.13005/ojc/390602","DOIUrl":null,"url":null,"abstract":"The mono or single oxides of alkaline earth metals such as CaO and MgO are a type of non-toxic and non-corrosive solid-base heterogeneous catalysts. Nevertheless, these mono oxide particles can agglomerate and form larger and less active particles at certain temperatures and reduces their catalytic activity. Therefore, the use of thermally stable CaO-MgO binary oxides is recommended. Further, the possible synergistic interactions between two metal centers provides cooperative catalytic behavior to improve catalytic activity compared to their single oxide counterparts. Therefore, the main theme of this review article is to highlight the ability of reported CaO-MgO based alkaline earth binary oxides as cost-effective and efficient solid-base catalysts in variety of organic transformations and to expand their scope in many other unexplored non-asymmetric organic transformations. Literature survey reveals that CMBOs are highly considerable in optimizing recognized organic transformations such as Transesterification, Knoevenagel/Aldol condensations, Isomerization, Oligomerization, Acetylation, Henry reaction, Alcoholysis, Aza-Michael addition, Cracking of Alkanes, H2-production via steam reforming, Photodegradation of organic pollutants and so forth. The literature survey further visualizes that the surface properties of CMBOs such as Brønsted/ Lewis’s basicity, surface area, particle size, structural diversity, Ca: Mg ratios and synergism between Ca and Mg in CMBOs are very useful to promote them as efficient catalysts compared to their single oxide counterparts (pure CaO and pure MgO). The rightness of proposed mechanisms of abovementioned organic reactions by CMBO catalysts is elicited by this review. Moreover, the precursors for CMBOs are inexpensive, highly abundant and eco-compatible. Apart from the catalytic applications, the suitability of the CMBOs in sorption studies including CO2 uptake, ethanol steam reforming, and heavy metal ion removal is also covered.","PeriodicalId":19599,"journal":{"name":"Oriental Journal Of Chemistry","volume":"12 45","pages":""},"PeriodicalIF":0.3000,"publicationDate":"2023-12-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Oriental Journal Of Chemistry","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.13005/ojc/390602","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"CHEMISTRY, MULTIDISCIPLINARY","Score":null,"Total":0}

引用次数: 0

Abstract

The mono or single oxides of alkaline earth metals such as CaO and MgO are a type of non-toxic and non-corrosive solid-base heterogeneous catalysts. Nevertheless, these mono oxide particles can agglomerate and form larger and less active particles at certain temperatures and reduces their catalytic activity. Therefore, the use of thermally stable CaO-MgO binary oxides is recommended. Further, the possible synergistic interactions between two metal centers provides cooperative catalytic behavior to improve catalytic activity compared to their single oxide counterparts. Therefore, the main theme of this review article is to highlight the ability of reported CaO-MgO based alkaline earth binary oxides as cost-effective and efficient solid-base catalysts in variety of organic transformations and to expand their scope in many other unexplored non-asymmetric organic transformations. Literature survey reveals that CMBOs are highly considerable in optimizing recognized organic transformations such as Transesterification, Knoevenagel/Aldol condensations, Isomerization, Oligomerization, Acetylation, Henry reaction, Alcoholysis, Aza-Michael addition, Cracking of Alkanes, H2-production via steam reforming, Photodegradation of organic pollutants and so forth. The literature survey further visualizes that the surface properties of CMBOs such as Brønsted/ Lewis’s basicity, surface area, particle size, structural diversity, Ca: Mg ratios and synergism between Ca and Mg in CMBOs are very useful to promote them as efficient catalysts compared to their single oxide counterparts (pure CaO and pure MgO). The rightness of proposed mechanisms of abovementioned organic reactions by CMBO catalysts is elicited by this review. Moreover, the precursors for CMBOs are inexpensive, highly abundant and eco-compatible. Apart from the catalytic applications, the suitability of the CMBOs in sorption studies including CO2 uptake, ethanol steam reforming, and heavy metal ion removal is also covered.

查看原文本刊更多论文

以 CaO-MgO 为基础的碱土金属二元氧化物作为具有成本效益的固基异质催化剂和吸附剂的出现：(小型综述）

碱土金属的单氧化物或单一氧化物（如氧化钙和氧化镁）是一种无毒、无腐蚀性的固碱异相催化剂。然而，这些单氧化物颗粒在特定温度下会聚结成较大且活性较低的颗粒，从而降低其催化活性。因此，建议使用热稳定的 CaO-MgO 二元氧化物。此外，与单一氧化物相比，两个金属中心之间可能存在的协同作用可提供协同催化行为，从而提高催化活性。因此，本综述文章的主题是强调已报道的基于 CaO-MgO 的碱土二元氧化物在各种有机转化中作为具有成本效益的高效固态催化剂的能力，并扩大其在许多其他未探索的非对称有机转化中的应用范围。文献调查显示，CMBOs 在优化酯交换反应、Knoevenagel/Aldol 缩合反应、异构化反应、低聚反应、乙酰化反应、亨利反应、醇溶反应、Aza-Michael 加成反应、烷烃裂解、通过蒸汽转化产生 H2、有机污染物的光降解等公认的有机转化过程中发挥着重要作用。文献调查进一步表明，与单一氧化物（纯 CaO 和纯 MgO）相比，CMBO 的表面特性（如布伦斯特/路易斯碱性、表面积、粒度、结构多样性、Ca: Mg 比率以及 CMBO 中 Ca 和 Mg 之间的协同作用）非常有助于促进它们成为高效催化剂。本综述引出了 CMBO 催化剂用于上述有机反应的拟议机制的正确性。此外，CMBO 的前驱体价格低廉、储量丰富且与生态环境相容。除催化应用外，本综述还介绍了 CMBO 在吸附研究中的适用性，包括二氧化碳吸收、乙醇蒸汽转化和重金属离子去除。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Oriental Journal Of Chemistry CHEMISTRY, MULTIDISCIPLINARY-

自引率

20.00%

发文量

172

期刊介绍： Oriental Journal of Chemistry was started in 1985 with the aim to promote chemistry research. The journal consists of articles which are rigorously peer-reviewed. The journal was indexed in Emerging Science citation index in 2016. The Editorial board member consists of eminent international scientist in all fields of Chemistry. Details of each member and their contact information is mentioned in website. The journal has thorough ethics policies and uses plagiarism detection software(ithenticate) to screen each submission. The journal has recently partnered with publons as a part of making our reviews more transparent. The journal has recently incorporated PlumX for article level matrix. The journal is promoting research on all social and academic platforms mentioned in PlumX guidelines. The journal uses google maps to improve on the geographical distribution of Editorial board members as well as authors.