First Principles Studies of Gas Adsorption in Metal Organic Frameworks PDF Download
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Languages : en
Pages : 0
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This thesis focuses on using theoretical and computational techniques to study gas absorption in metal organic frameworks (MOFs). The ultimate goal of these studies is to establish a methodology capable of computing the gas loading behavior of MOFs with minimal empirical inputs. We are also dedicated to understanding the underlying physics of guest-framework interactions, so general guidelines can be provided to design MOFs with better gas adsorption performance. In this thesis, we will investigate two classes of MOFs, namely those with and without open metal sites. MOFs with coordinatively saturated metal centers are dominated by weak nonbonding interactions between the guest molecules and the organic ligands. Therefore, a consistent set of force field parameters will be developed for both guest molecules and frameworks based on first principles calculations. Utilizing symmetry adapted perturbation theory (SAPT), we decompose the interaction energies into distinct physical meaningful terms, which then be fit with physically motivated functional forms. We will show that the resulting first principles potential is extraordinary accurate, and is transferrable across different chemical environments. In addition, we will develop a novel algorithm which will accelerate our simulations by several orders of magnitude, thus enabling us to conduct large-scale structure screening. The aforementioned techniques will be used to investigate the cooperative synergistic effects between different types of organic ligands, an important industrial-relevant problem. In contrast to the first class of MOFs, the loading isotherms of systems with open metal centers are largely controlled by several strong binding sites, in which perturbation theory generally fails to converge. Consequently, instead of the SAPT-based techniques, we will study these systems using density functional theory (DFT) methods. We will illustrate the effect of flue gas contaminants on the metal centers, an important concern for this class of MOFs in industrial application. Finally, we will explore the physical properties of the open-metal binding sites by studying the IR spectrum of the adsorbed molecules. Though all these studies, we are able to establish a deep understanding to the MOF gas adsorption behavior, and we will illustrate the advantages of computer simulation techniques in this area.
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Languages : en
Pages : 0
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Book Description
This thesis focuses on using theoretical and computational techniques to study gas absorption in metal organic frameworks (MOFs). The ultimate goal of these studies is to establish a methodology capable of computing the gas loading behavior of MOFs with minimal empirical inputs. We are also dedicated to understanding the underlying physics of guest-framework interactions, so general guidelines can be provided to design MOFs with better gas adsorption performance. In this thesis, we will investigate two classes of MOFs, namely those with and without open metal sites. MOFs with coordinatively saturated metal centers are dominated by weak nonbonding interactions between the guest molecules and the organic ligands. Therefore, a consistent set of force field parameters will be developed for both guest molecules and frameworks based on first principles calculations. Utilizing symmetry adapted perturbation theory (SAPT), we decompose the interaction energies into distinct physical meaningful terms, which then be fit with physically motivated functional forms. We will show that the resulting first principles potential is extraordinary accurate, and is transferrable across different chemical environments. In addition, we will develop a novel algorithm which will accelerate our simulations by several orders of magnitude, thus enabling us to conduct large-scale structure screening. The aforementioned techniques will be used to investigate the cooperative synergistic effects between different types of organic ligands, an important industrial-relevant problem. In contrast to the first class of MOFs, the loading isotherms of systems with open metal centers are largely controlled by several strong binding sites, in which perturbation theory generally fails to converge. Consequently, instead of the SAPT-based techniques, we will study these systems using density functional theory (DFT) methods. We will illustrate the effect of flue gas contaminants on the metal centers, an important concern for this class of MOFs in industrial application. Finally, we will explore the physical properties of the open-metal binding sites by studying the IR spectrum of the adsorbed molecules. Though all these studies, we are able to establish a deep understanding to the MOF gas adsorption behavior, and we will illustrate the advantages of computer simulation techniques in this area.
Author: Leonard R. MacGillivray
Publisher: John Wiley & Sons
ISBN: 1118931580
Category : Science
Languages : en
Pages : 1210
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Book Description
Metal-Organic Frameworks (MOFs) are crystalline compounds consisting of rigid organic molecules held together and organized by metal ions or clusters. Special interests in these materials arise from the fact that many are highly porous and can be used for storage of small molecules, for example H2 or CO2. Consequently, the materials are ideal candidates for a wide range of applications including gas storage, separation technologies and catalysis. Potential applications include the storage of hydrogen for fuel-cell cars, and the removal and storage of carbon dioxide in sustainable technical processes. MOFs offer the inorganic chemist and materials scientist a wide range of new synthetic possibilities and open the doors to new and exciting basic research. Metal-Organic Frameworks Materials provides a solid basis for the understanding of MOFs and insights into new inorganic materials structures and properties. The volume also reflects progress that has been made in recent years, presenting a wide range of new applications including state-of-the art developments in the promising technology for alternative fuels. The comprehensive volume investigates structures, symmetry, supramolecular chemistry, surface engineering, recognition, properties, and reactions. The content from this book will be added online to the Encyclopedia of Inorganic and Bioinorganic Chemistry: http://www.wileyonlinelibrary.com/ref/eibc
Author: T. Grant Glover
Publisher: CRC Press
ISBN: 0429891768
Category : Technology & Engineering
Languages : en
Pages : 559
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Book Description
This text discusses the synthesis, characterization, and application of metal-organic frameworks (MOFs) for the purpose of adsorbing gases. It provides details on the fundamentals of thermodynamics, mass transfer, and diffusion that are commonly required when evaluating MOF materials for gas separation and storage applications and includes a discussion of molecular simulation tools needed to examine gas adsorption in MOFs. Additionally, the work presents techniques that can be used to characterize MOFs after gas adsorption has occurred and provides guidance on the water stability of these materials. Lastly, applications of MOFs are considered with a discussion of how to measure the gas storage capacity of MOFs, a discussion of how to screen MOFs to for filtration applications, and a discussion of the use of MOFs to perform industrial separations, such as olefin/paraffin separations. Throughout the work, fundamental information, such as a discussion on the calculation of MOF surface area and description of adsorption phenomena in packed-beds, is balanced with a discussion of the results from research literature.
Author: T. Grant Glover
Publisher: CRC Press
ISBN: 0429891776
Category : Technology & Engineering
Languages : en
Pages : 530
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Book Description
This text discusses the synthesis, characterization, and application of metal-organic frameworks (MOFs) for the purpose of adsorbing gases. It provides details on the fundamentals of thermodynamics, mass transfer, and diffusion that are commonly required when evaluating MOF materials for gas separation and storage applications and includes a discussion of molecular simulation tools needed to examine gas adsorption in MOFs. Additionally, the work presents techniques that can be used to characterize MOFs after gas adsorption has occurred and provides guidance on the water stability of these materials. Lastly, applications of MOFs are considered with a discussion of how to measure the gas storage capacity of MOFs, a discussion of how to screen MOFs to for filtration applications, and a discussion of the use of MOFs to perform industrial separations, such as olefin/paraffin separations. Throughout the work, fundamental information, such as a discussion on the calculation of MOF surface area and description of adsorption phenomena in packed-beds, is balanced with a discussion of the results from research literature.
Author: Kai Cui (Ph.D.)
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Characterized by high porosity, large surface area and designable structures, metal organic frameworks (MOFs) are promising candidates for gas storage and separation applications that can replace energy-intensive separation processes in current industry. At practical industrial conditions, acid gas contaminants such as SO2, NO2, H2S are commonly found in process streams, but many MOFs are unstable in such acidic environments. The vulnerability of MOFs thus prohibits the industrial use. Understanding the degradation of MOFs under exposure to acid gases is essential to elongate their lifetime and enable their practical applications. We use the zeolitic imidazolate frameworks (ZIFs) as prototypical MOF materials and perform detailed computational mechanistic studies on their degradation under acid gas exposure. We focus on three main questions: How can the reactivity of MOFs be modeled with high accuracy, beyond periodic DFT? What factors differentiate the stability of different ZIFs? How can we simulate the long-time material evolution as observed in experiments? In this thesis, we first develop QM/MM and QM/QM methods tailored for MOF systems to enable high-accuracy and high-efficiency calculations of their reactivities. "Gold-standard" accuracy can be achieved at modest computational cost. Through the combination of this QM/MM method and statistical mechanical modeling, we then successfully explain the origins of the different stability behavior between ZIF-71 and ZIF-8 under humid SO2 exposure. Our results emphasize the importance of acid gas distribution to the overall stability. Finally, we develop a first-principles-based kinetic model to simulate the defect propagation in ZIFs and successfully reproduce the experimentally-measured macroscopic evolution of the time-dependent bulk materials proprieties. Our simulation works also provide new avenues to mitigate degradation under challenging conditions of acid gas exposure. In the last part of this thesis, we also briefly discuss about using acid-resistant MOFs for acid gas removal. One potential design strategy to enhance acid gas adsorption in MOFs, i.e., adding Lewis base sites to the linker, is reviewed. Using first principles calculations, we closely studied the influence of these additional sites on the SO2 adsorption behavior in the modified MOFs.
Author: Hellmut G. Karge
Publisher: Springer Science & Business Media
ISBN: 3540739661
Category : Science
Languages : en
Pages : 411
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Book Description
"Molecular Sieves - Science and Technology" covers, in a comprehensive manner, the science and technology of zeolites and all related microporous and mesoporous materials. The contributions are grouped together topically in such a way that each volume deals with a specific sub-field. Volume 7 treats fundamentals and analyses of adsorption and diffusion in zeolites including single-file diffusion. Various methods of measuring adsorption and diffusion are described and discussed.
Author: Linjiang Chen
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Ruth Newby
Publisher:
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Category : Gases
Languages : en
Pages : 0
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Author: Shan Gao
Publisher:
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Category :
Languages : en
Pages :
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Author: Leonard R. MacGillivray
Publisher: John Wiley & Sons
ISBN: 111803516X
Category : Science
Languages : en
Pages : 440
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Book Description
Metal-organic frameworks represent a new class of materials that may solve the hydrogen storage problem associated with hydrogen-fueled vehicles. In this first definitive guide to metal-organic framework chemistry, author L. MacGillivray addresses state-of-art developments in this promising technology for alternative fuels. Providing professors, graduate and undergraduate students, structural chemists, physical chemists, and chemical engineers with a historical perspective, as well as the most up-to-date developments by leading experts, Metal-Organic Frameworks examines structure, symmetry, supramolecular chemistry, surface engineering, metal-organometallic frameworks, properties, and reactions.
