Characterization of catalytic materials
Israel E. Wachs, the volume Editor, is Professor of Chemical Engineering at Lehigh University and Director of the Vibrational Spectroscopy Laboratory in the Zettlemoyer Center for Surface Studies. Professor Wachs has done importnat research in heterogeneous catalysis while at Lehigh and, earlier, as a staff member of Exxon Research. Characterization of Catalytic Materials is a modern, comprehensive reference volume covering the analysis of catalytic materials used in commercial applications. This book provides information for understanding the performance of each class of catalytic material and discusses the applications of these materials in different kinds of technologies such as in pollution control, and chemical and petroleum processing. Each chapter is written by individuals who are internationally recognized as experts in their respective areas and is organized for easy reference by catalytic classes, and the types of surface, interface, and bulk characterization that might be sought. Written from the materials perspective, Characterization of Catalytic Materials focuses on the properties to be measured rather than on the techniques to be used.
10 pages matching binding energies in this book
Results 1-3 of 10
What people are saying - Write a review
We haven't found any reviews in the usual places.
BULK METAL OXIDES
SUPPORTED METAL OXIDES
8 other sections not shown
Other editions - View all
acid adsorbed adsorption alloys alumina aluminum analysis atoms Auger beam binding energies bond bulk metal catalysts bulk structure calcination Catal catalytic activity catalytic behavior catalytic materials catalytic properties cation characterization methods Chem chemical Chemical bonding chemisorption Chemistry clusters cobalt coordination correlation crystalline crystallites Depth desorption Detection detector determine dispersion edge EXAFS Figure function hydrogen hydrogenolysis Instrument cost interaction Lateral resolution lattice oxygen layer measured metal oxide catalysts metal oxide overlayer metal oxide phases molecular sieves molecules molybdenum monolayer MoS2 Mossbauer Mossbauer spectroscopy obtained oxide support oxygen particle peak photoelectron pillared clays pore powders preparation probe radiation Raman reaction redox reduced ruthenium scanning single crystal specific spectra spectroscopy studies sulfides sulfur supported metal oxide surface area surface composition surface metal oxide synchrotron techniques temperature temperature-programmed thiophene tion transmission electron microscopy vacuum X-ray absorption X-ray diffraction XANES zeolites