Characterization of Nanoparticles: Advances
Support Morphology-dependent Activity of Nanocatalysts
Design of Metal-modified Zeolites and Mesoporous Aluminosilicates and Application in the Synthesis of Fine Chemicals
Metal–Organic-framework Nanoparticles: Synthesis, Characterization and Catalytic Applications
Nanoparticle Design for the Catalytic Valorization of Lignocellulosic Biomass
Nanoparticles and Nanocomposites Design in Photocatalysis
Nanoparticles in the Water–Gas Shift Reaction and Steam Reforming Reactions
Plasmonic Photocatalysts for Environmental Applications
About this book
Nanoparticles exhibit a range of different properties when compared to bulk materials. Their high surface-area to volume ratio makes them particularly attractive for use as catalysts and recent years have seen an explosion of research in this area. The ability to fine-tune the size and structure of nanoparticles means that it is possible to design catalytic materials for improved activity or specificity.
As catalysis is one of the key technologies for more sustainable production of both chemicals and energy, the past few years have seen increasing numbers of nanomaterials reported for these applications. Depending on the application, a number of different catalyst synthesis and optimization protocols can be used. This book provides comprehensive links between the design and fabrication method for nanoparticles and their catalytic performance (activity, selectivity and stability) in various applications.
Presenting an introduction to the concept of catalyst design and recent developments in the preparation and characterisation of nanomaterials, followed by several chapters on the design of catalysts for specific applications, this book is a valuable resource for researchers working on catalytic reactions, industrial processes and nanomaterial applications.