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In this work, the deposition of ZIF-8 surface-anchored metal-organic framework (SURMOF) films was systematically studied. A proper characterization and optimization of the synthesized films was performed and their separation performance was determined. Furthermore, a general description of the system was achieved using the Maxwell-Stefan surface diffusion model.

Gas separation --- ZIF-8 --- SURMOFs --- Gastrennung --- MOFs --- Diffusion

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This book highlights the state-of-the-art research and discovery in the use of MOFs in catalysis, highlighting the scope to which these novel materials have been incorporated by the community. It provides an exceptional insight into the strategies for the synthesis and functionalization of MOFs, their use as CO2 and chemical warfare agents capture, their role in bio-catalysis and applications in photocatalysis, asymmetric catalysis, nano-catalysis, etc. This book will also emphasize the challenges with previous signs of progress and way for further research, details relating to the current pioneering technology, and future perspectives with a multidisciplinary approach. Furthermore, it presents up-to-date information on the economics, toxicity, and regulations related to these novel materials.

Catalysts. --- Metal-organic frameworks. --- MOFs (Metal-organic frameworks) --- Organometallic compounds --- Polymers --- Catalytic agents --- Catalysis --- Chemical inhibitors

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Electrochemical Applications of Metal -Organic Frameworks: Advances and Future Potential brings together the basics of Metal-Organic Frameworks (MOFs and it's chemistry and electrochemistry), giving the reader an understanding of the complexities and possibilities of MOF electrochemistry. Providing in-depth coverage of various methods of the synthesis of MOFs for their electrochemical applications, the morphological and electrochemical properties of these materials are discussed along with their future development. Sections cover electrochemical applications of MOFs in batteries, supercapacitors, fuel cells, as anti-corrosive materials, sensors and in electrocatalysis, and more. Recent developments in MOFs that can hold active molecules such as enzymes, bacteria, nanoparticles and promote electrochemical activity are included.

Electrochemistry --- Metal-organic frameworks --- Materials. --- Industrial applications. --- MOFs (Metal-organic frameworks) --- Organometallic compounds --- Polymers --- Chemistry, Physical and theoretical --- Metal-Organic Frameworks --- Metal-Organic Frameworks.

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This book gathers selected research on the preparation, characterization and application of new organic/inorganic composites endowed with photo(electro)catalytic properties for the photocatalytic production of H2. In these pilot studies, the photoactive materials were tested under either UV-visible or, even more conveniently, under visible light for H2 evolution in “sacrificial water splitting” or “photoreforming” systems. In addition, a review article on the use of 2D materials and composites as potential photocatalysts for water splitting is included.

WO3 --- TiO2 --- hydrogen production --- photoelectrocatalysis --- pancake-like porous carbon nitride --- bottom-up method --- water splitting --- visible light photocatalyst --- photocatalyst --- graphene oxide --- phosphorene --- graphitic carbon nitride --- MOFs --- ethanol reforming --- Au catalyst --- Ti3+ defect --- site-specific deposition --- hydrogen --- catalyst --- photocatalysis --- biomass --- solar light --- perovskite --- carbon nitride --- design of experiments --- n/a

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Metal organic frameworks (MOFs) are a class of porous materials with a modular structure. This allows for very wide structural diversity and the possibility of synthesizing materials with tailored properties for advanced applications. Thus, MOF materials are the subject of intense research, with strong relevance to both science and technology. MOFs are formed by the assembly of two components: cluster or metal ion nodes, which are also called secondary building units (SBUs), and organic linkers between the SBUs, usually giving rise to crystalline structures with an open framework and significant porous texture development. The main aim of this Special Issue of Catalysts (ISSN 2073-4344) is to present the most relevant and recent insights in the field of the synthesis and characterization of MOFs and MOF-based materials for advanced applications, including adsorption, gas storage/capture, drug delivery, catalysis, photocatalysis, and/or chemical sensing.

Technology: general issues --- History of engineering & technology --- Materials science --- Metal–organic framework --- Lewis acid --- fructose --- 5-hydroxymethyl furfural --- biomass --- Metal-organic frameworks (MOFs) --- photocatalysis --- carbon dioxide reduction --- renewable energy --- heterogeneous catalysis --- metal organic framework --- surface modification --- Zinc glutarate --- CO2 fixation --- polycarbonate --- Mn-MOF-74 --- modification --- water resistance --- NH3-SCR performance --- environmental pollution --- filter --- gas sorption --- sensor --- hydrogen storage --- electrospinning --- one-pot hydrothermal --- immobilizing recombinant --- His-hCA II --- Ni-BTC nanorods --- metal–organic frameworks --- polyoxometalates --- hybrid materials --- synthesis --- catalysis --- heterogeneous catalyst --- aerobic oxidation --- cyclohexene --- metal organic frameworks --- NH2-MIL-125(Ti) --- water stability --- purification --- layered coordination polymer --- oxidative desulfurization --- denitrogenation extraction --- hydrogen peroxide --- lanthanides --- MOF --- catalyst --- microreactor --- kinetic studies --- metal organic frame works --- CO2 adsorption --- pre combustion --- gas membrane separation --- metal halide perovskites --- metal-organic framework --- fuel cell --- oxygen reduction reaction (ORR) --- metal organic frameworks (MOFs) --- hydrothermal synthesis --- coordination polymers --- crystal structures --- metal-organic frameworks --- carboxylate ligands --- olefin paraffin separations --- propyne --- propylene --- adsorption isotherms --- dynamic breakthrough --- n/a --- Metal-organic framework