Design and fabrication of mesoporous heterogeneous basic catalysts

Mesoporous solid bases are extremely desirable in green catalytic processes, due to their advantages of accelerated mass transport, negligible corrosion, and easy separation. Great progress has been made in mesoporous solid bases in the last decade. In addition to their wide applications in the cata...

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Published in	Chemical Society reviews Vol. 44; no. 15; pp. 592 - 5147
Main Authors	Sun, Lin-Bing, Liu, Xiao-Qin, Zhou, Hong-Cai
Format	Journal Article
Language	English
Published	England 07.08.2015
Subjects	catalytic activity corrosion energy mass transfer porous media
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Abstract	Mesoporous solid bases are extremely desirable in green catalytic processes, due to their advantages of accelerated mass transport, negligible corrosion, and easy separation. Great progress has been made in mesoporous solid bases in the last decade. In addition to their wide applications in the catalytic synthesis of organics and fine chemicals, mesoporous solid bases have also been used in the field of energy and environmental catalysis. Development of mesoporous solid bases is therefore of significant importance from both academic and practical points of view. In this review, we provide an overview of the recent advances in mesoporous solid bases, which is basically grouped by the support type and each category is illustrated with typical examples. Cooperative catalysts derived from the incorporation of additional functionalities ( i.e. acid and metal) into mesoporous solid bases are also included. The fundamental principles of how to design and fabricate basic materials with mesostructure are highlighted. The mechanism of the formation of basic sites in different mesoporous systems is discussed as well. Recent advances in mesoporous solid bases were reviewed, and fundamental principles of how to fabricate efficient basic catalysts were highlighted.
AbstractList	Mesoporous solid bases are extremely desirable in green catalytic processes, due to their advantages of accelerated mass transport, negligible corrosion, and easy separation. Great progress has been made in mesoporous solid bases in the last decade. In addition to their wide applications in the catalytic synthesis of organics and fine chemicals, mesoporous solid bases have also been used in the field of energy and environmental catalysis. Development of mesoporous solid bases is therefore of significant importance from both academic and practical points of view. In this review, we provide an overview of the recent advances in mesoporous solid bases, which is basically grouped by the support type and each category is illustrated with typical examples. Cooperative catalysts derived from the incorporation of additional functionalities ( i.e. acid and metal) into mesoporous solid bases are also included. The fundamental principles of how to design and fabricate basic materials with mesostructure are highlighted. The mechanism of the formation of basic sites in different mesoporous systems is discussed as well. Mesoporous solid bases are extremely desirable in green catalytic processes, due to their advantages of accelerated mass transport, negligible corrosion, and easy separation. Great progress has been made in mesoporous solid bases in the last decade. In addition to their wide applications in the catalytic synthesis of organics and fine chemicals, mesoporous solid bases have also been used in the field of energy and environmental catalysis. Development of mesoporous solid bases is therefore of significant importance from both academic and practical points of view. In this review, we provide an overview of the recent advances in mesoporous solid bases, which is basically grouped by the support type and each category is illustrated with typical examples. Cooperative catalysts derived from the incorporation of additional functionalities (i.e. acid and metal) into mesoporous solid bases are also included. The fundamental principles of how to design and fabricate basic materials with mesostructure are highlighted. The mechanism of the formation of basic sites in different mesoporous systems is discussed as well.Mesoporous solid bases are extremely desirable in green catalytic processes, due to their advantages of accelerated mass transport, negligible corrosion, and easy separation. Great progress has been made in mesoporous solid bases in the last decade. In addition to their wide applications in the catalytic synthesis of organics and fine chemicals, mesoporous solid bases have also been used in the field of energy and environmental catalysis. Development of mesoporous solid bases is therefore of significant importance from both academic and practical points of view. In this review, we provide an overview of the recent advances in mesoporous solid bases, which is basically grouped by the support type and each category is illustrated with typical examples. Cooperative catalysts derived from the incorporation of additional functionalities (i.e. acid and metal) into mesoporous solid bases are also included. The fundamental principles of how to design and fabricate basic materials with mesostructure are highlighted. The mechanism of the formation of basic sites in different mesoporous systems is discussed as well. Mesoporous solid bases are extremely desirable in green catalytic processes, due to their advantages of accelerated mass transport, negligible corrosion, and easy separation. Great progress has been made in mesoporous solid bases in the last decade. In addition to their wide applications in the catalytic synthesis of organics and fine chemicals, mesoporous solid bases have also been used in the field of energy and environmental catalysis. Development of mesoporous solid bases is therefore of significant importance from both academic and practical points of view. In this review, we provide an overview of the recent advances in mesoporous solid bases, which is basically grouped by the support type and each category is illustrated with typical examples. Cooperative catalysts derived from the incorporation of additional functionalities ( i.e. acid and metal) into mesoporous solid bases are also included. The fundamental principles of how to design and fabricate basic materials with mesostructure are highlighted. The mechanism of the formation of basic sites in different mesoporous systems is discussed as well. Recent advances in mesoporous solid bases were reviewed, and fundamental principles of how to fabricate efficient basic catalysts were highlighted.
Author	Sun, Lin-Bing Zhou, Hong-Cai Liu, Xiao-Qin
AuthorAffiliation	Department of Chemistry Nanjing Tech University College of Chemistry and Chemical Engineering State Key Laboratory of Materials-Oriented Chemical Engineering Texas A&M University
AuthorAffiliation_xml	– sequence: 0 name: College of Chemistry and Chemical Engineering – sequence: 0 name: Department of Chemistry – sequence: 0 name: Nanjing Tech University – sequence: 0 name: Texas A&M University – sequence: 0 name: State Key Laboratory of Materials-Oriented Chemical Engineering
Author_xml	– sequence: 1 givenname: Lin-Bing surname: Sun fullname: Sun, Lin-Bing – sequence: 2 givenname: Xiao-Qin surname: Liu fullname: Liu, Xiao-Qin – sequence: 3 givenname: Hong-Cai surname: Zhou fullname: Zhou, Hong-Cai
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26051787$$D View this record in MEDLINE/PubMed
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Notes	Lin-Bing Sun obtained his PhD in 2008 from Nanjing University under the supervision of Professor Jian Hua Zhu and Professor Yuan Chun. He joined the faculty of Nanjing Tech University in 2008, and became an associate professor in 2011. He was a postdoctoral research associate at Texas A&M University with Professor Hong-Cai Zhou in 2011-2012. His current research interests focus on fabrication of porous materials and their applications in adsorption and heterogeneous catalysis. Hong-Cai "Joe" Zhou obtained his PhD in 2000 from Texas A&M University under the supervision of F. A. Cotton. After a postdoctoral stint at Harvard University with R. H. Holm, he joined the faculty of Miami University, Oxford in 2002. He rose to the rank of a full professor in Texas A&M University in 2008 and was promoted to Davidson Professor of Science in 2014. His research focuses on the discovery of synthetic methods to obtain robust framework materials with unique catalytic activities or desirable properties for clean-energy-related applications, taking advantage of the confinement effect in a microscopic or mesoscopic cavity. Xiao-Qin Liu obtained her PhD in 1999 from Nanjing Tech University under the supervision of Professor Jun Shi and Professor Hu-Qing Yao. She joined the faculty of Nanjing Tech University in 1982, and became a professor in 1999. Her current research interests focus on design, synthesis, and applications of porous functional materials, with emphasis on adsorbents and catalysts. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
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Snippet	Mesoporous solid bases are extremely desirable in green catalytic processes, due to their advantages of accelerated mass transport, negligible corrosion, and...
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SubjectTerms	catalytic activity corrosion energy mass transfer porous media
Title	Design and fabrication of mesoporous heterogeneous basic catalysts
URI	https://www.ncbi.nlm.nih.gov/pubmed/26051787 https://www.proquest.com/docview/1698031177 https://www.proquest.com/docview/2574313809
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