1st Edition
Metal-Organic Frameworks Materials Modeling towards Engineering Applications
Metal-organic frameworks (MOFs) have emerged as a new family of nanoporous materials. With an enormous choice of inorganic/organic building blocks, MOFs possess a wide range of surface area, pore size, and functionality and, thus, have been considered versatile materials for many potential applications. This book presents a broad collection of recent modeling studies in the field of MOFs toward potential engineering applications, such as gas storage/separation, carbon capture, catalysis, water purification, and drug delivery.
Computational Approaches to the Design, Crystal Structure Prediction, and Structure-Property Relationships of Metal-Organic Frameworks; Caroline Mellot-Draznieks, Ben Slater, and Raimondas Galvelis
On the Application of Classical Molecular Simulations of Adsorption in Metal-Organic Frameworks; David Dubbeldam and Krista S. Walton
Modeling the Adsorption of Small Molecules at Coordinatively Unsaturated Metal Sites: Density-Functional Theory and Molecular Mechanics Approaches; Michael Fischer and Michael Fröba
Accurate ab initio Description of Adsorption on Coordinatively Unsaturated Sites in Metal-Organic Frameworks; Lukáš Grajciar, Miroslav Rubeš, Ota Bludský, and Petr Nachtigall
Modeling Sorbate Equilibria and Transport in Porous Coordination Polymers; George K. Papadopoulos
Modeling Quantum Effects on Adsorption and Diffusion of Hydrogen in Metal-Organic Frameworks; Giovanni Garberoglio
Molecular Modeling of Gas Separation in Metal-Organic Frameworks; Qingyuan Yang, Dahuan Liu, and Chongli Zhong
Molecular Modeling of Metal-Organic Frameworks for Carbon Dioxide Separation; Seda Keskin
Modeling of Zeolitic-like Hybrid Materials for Gas Separation; Carlos Nieto-Draghi and Javier Pérez-Pellitero
Modeling Adsorptive Separations using Metal-Organic Frameworks; Alexandre F. P. Ferreira, Ana M. Ribeiro, João C. Santos, Marta C. Campo, and Alírio E. Rodrigues
Computer Simulations of Ionic Metal-Organic Frameworks; Anjaiah Nalaparaju and Jianwen Jiang
Computational Modeling of Catalysis in Metal-Organic Frameworks; Qiuju Zhang and Liang Chen
Modeled Catalytic Properties of Metal-Organic Frameworks-Based Compounds; Dario Duca
Biography
Jianwen Jiang is an associate professor in the Department of Chemical and Biomolecular Engineering at the National University of Singapore. His research expertise is computational materials modeling and statistical thermodynamics, currently focused on nanoporous and membrane materials for energy, environmental, and pharmaceutical applications. He has published over 160 technical manuscripts, as well as a number of invited reviews and book chapters. He is on the editorial boards of Scientific Reports, Frontier in Materials, Advances in Materials Research, and Colloid and Interface Science Communications, among others. In 2010, he received the IES Prestigious Engineering Achievement Award from the Institution of Engineers, Singapore.
"The worldwide community of chemists and chemical engineers is grateful to the authors of these assembled articles and especially to Jianwen Jiang for his diligent service as editor of this timely volume."
—Prof. John Prausnitz, University of California, Berkeley, USA
"The importance of metal–organic frameworks has grown explosively in the past decade, and molecular modeling is playing an important role in this development. This timely book contains reviews by many of the leading modeling researchers in this field and will be essential reading for those interested in this important and rapidly growing field."
—Prof. Randall Q. Snurr, Northwestern University, USA
"In this comprehensive, information-packed edited volume, Jianwen Jiang brings together a collection of chapters on different aspects of modeling metal-organic frameworks. The volume is required reading for researchers interested in this novel class of materials for adsorption, gas separation, and catalysis."
—Prof. A. Z. Panagiotopoulos, Princeton University, USA
"This 13-chapter book introduces high-priority subjects on metal-organic frameworks such as their structure and adsorption, separation, and catalytic properties. The unique approach of this book is that these key subjects are overviewed from chemical engineering modeling approaches using various examples with less technical modeling languages. To enable better understanding, the fundamental concepts are well arranged in every chapter, and this book should be helpful to design new MOF families for a specific application on a solid scientific basis."
—Prof. Katsumi Kaneko, Shinshu University, Japan
