This book presents a both detailed and comprehensive look at metal-organic frameworks (MOFs), a relatively new class of materials with a broad application potential. The beginning chapters focus on introducing the requisite fundamental knowledge of MOFs with respect to their classification, synthesis, functionalization approaches, and various other physiochemical facets such as structural morphology and coordination chemistry. The remaining chapters cover an array of diverse applications, from areas such as energy storage and environmental remediation, to drug delivery, biosensing, and tissue engineering.
Featuring chapters dedicated to the design of novel MOF structures, as well as theoretical calculations via density functional theory and machine learning techniques, this book targets a wide readership of both academic and industrial researchers interested in an in-depth understanding of the latest MOF structure-function relationships, as well as their deployment in a wide variety of coordinated engineering applications.
Featuring chapters dedicated to the design of novel MOF structures, as well as theoretical calculations via density functional theory and machine learning techniques, this book targets a wide readership of both academic and industrial researchers interested in an in-depth understanding of the latest MOF structure-function relationships, as well as their deployment in a wide variety of coordinated engineering applications.