Journal ArticleDOI
Metal-Organic Frameworks as Platforms for Catalytic Applications.
TLDR
An overview of recent developments achieved in MOF catalysis, including heterogeneousCatalysis, photocatalysis, and eletrocatalysis over MOFs and MOF-based materials, is provided.Abstract:
Metal-organic frameworks (MOFs), also called porous coordination polymers, represent a class of crystalline porous materials built from organic linkers and metal ions/clusters. The unique features of MOFs, including structural diversity and tailorability as well as high surface area, etc., enable them to be a highly versatile platform for potential applications in many fields. Herein, an overview of recent developments achieved in MOF catalysis, including heterogeneous catalysis, photocatalysis, and eletrocatalysis over MOFs and MOF-based materials, is provided. The active sites involved in the catalysts are particularly emphasized. The challenges, future trends, and prospects associated with MOFs and their related materials for catalysis are also discussed.read more
Citations
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Journal ArticleDOI
Carbon capture and conversion using metal–organic frameworks and MOF-based materials
TL;DR: This review provides a comprehensive account of significant progress in the design and synthesis of MOF-based materials, including MOFs, MOF composites and MOF derivatives, and their application to carbon capture and conversion.
Journal ArticleDOI
Metal-Organic Frameworks for Photocatalysis and Photothermal Catalysis.
Juan-Ding Xiao,Hai-Long Jiang +1 more
TL;DR: It is shown that MOFs provide a powerful platform to study photocatalysis, in which the involved three key processes, namely, light harvesting, electron-hole separation, and surface redox reactions, can be rationally improved.
Journal ArticleDOI
Improving MOF stability: approaches and applications
TL;DR: This review summarizes recent advances in the design and synthesis of stable MOFs and highlights the relationships between the stability and functional applications.
Journal ArticleDOI
Synthesis of micro/nanoscaled metal-organic frameworks and their direct electrochemical applications.
TL;DR: This review focuses on the design and fabrication of one-, two- and three-dimensional MOFs at micro/nanoscale, and their direct applications in batteries, supercapacitors and electrocatalysis.
Journal ArticleDOI
Metal-Organic Framework-Based Catalysts with Single Metal Sites.
TL;DR: This review overviews the recent developments of catalysis at single metal sites in MOF-based materials with emphasis on their structures and applications for thermocatalysis, electrocatalysis, and photocatalysis.
References
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Journal ArticleDOI
Metal–organic framework materials as catalysts
JeongYong Lee,Omar K. Farha,John M. Roberts,Karl A. Scheidt,SonBinh T. Nguyen,Joseph T. Hupp +5 more
TL;DR: A critical review of the emerging field of MOF-based catalysis is presented and examples of catalysis by homogeneous catalysts incorporated as framework struts or cavity modifiers are presented.
Journal ArticleDOI
Metal–Organic Framework Materials as Chemical Sensors
Lauren E. Kreno,Kirsty Leong,Omar K. Farha,Mark D. Allendorf,Richard P. Van Duyne,Joseph T. Hupp +5 more
TL;DR: The potential to computationally predict, with good accuracy, affinities of guests for host frameworks points to the prospect of routinely predesigning frameworks to deliver desired properties.
Journal ArticleDOI
Introduction to Metal–Organic Frameworks
Journal ArticleDOI
A homochiral metal-organic porous material for enantioselective separation and catalysis
TL;DR: The synthesis of a homochiral metal–organic porous material that allows the enantioselective inclusion of metal complexes in its pores and catalyses a transesterification reaction in an enantiOSElective manner is reported.
Journal ArticleDOI
Luminescent metal–organic frameworks for chemical sensing and explosive detection
TL;DR: This review intends to provide an update of work published since then and focuses on the photoluminescence properties of MOFs and their possible utility in chemical and biological sensing and detection.