Reaction Pathways and Mechanisms in Thermocatalytic Biomass Conversion II, 1st ed. 2016 Homogeneously Catalyzed Transformations, Acrylics from Biomass, Theoretical Aspects, Lignin Valorization and Pyrolysis Pathways Green Chemistry and Sustainable Technology Series

Volume II presents the latest advances in catalytic hydrodeoxygenation and other transformations of some cellulosic platform chemicals to high value-added products. It presents the theoretical evaluation of the energetics and catalytic species involved in potential pathways of catalyzed carbohydrate conversion, pathways leading to the formation of humin-based by-products, and thermal pathways in deriving chemicals from lignin pyrolysis and hydrodeoxygenation. Catalytic gasification of biomass under extreme thermal conditions as an extension of pyrolysis is also discussed.

Marcel Schlaf, PhD, is a Professor at the Department of Chemistry, University of Guelph, Canada.

Z. Conrad Zhang, PhD, is a Professor at the Dalian Institute of Chemical Physics, Chinese Academy of Sciences, China.

DeOxyDeHydration (DODH) of Biomass-Derived Molecules.- Homogeneous Catalysts for the Hydrodeoxygenation of Biomass Derived Carbohydrate Feedstocks.- Valorization of Lactic Acid and Derivatives to Acrylic Acid Derivatives: Review of Mechanistic Studies.- Computational Chemistry of Catalytic Biomass Conversion.- Humin Formation Pathways.- Catalytic Hydrodeoxygenation of Lignin Model Compounds.- Oxidation of Lignins and Mechanistic Considerations.- Pyrolysis Mechanisms of Lignin Model Compounds Using a Heated Micro-Reactor.- Catalytic Gasification of Lignocellulosic Biomass.

Prof. Marcel Schlaf graduated as a Diplom-Chemiker from the Bayerische-Julius-Maximilian Universität in Würzburg, Bavaria in 1992. After obtaining a Ph.D. in Inorganic Chemistry from the University of Toronto in 1996, he was an NSERC post-doctoral fellow at the University of Ottawa and at Brookhaven National Laboratory, Long Island, NY. He joined the Department of Chemistry at the University of Guelph in 1999 where he was promoted to the rank of associate professor in 2004 and full professor in 2011. In 1995 and 2006 he was a visiting researcher at Los Alamos National Laboratory, NM and in 2009 a visiting faculty at Peking University and Dalian University of Technology in China. In 2010 he was appointed Adjunct Research Professor at the Department of Chemical and Biochemical Engineering, Faculty of Engineering, University of Western Ontario and the Institute for Chemicals and Fuels from Alternative Resources (ICFAR). His research interests lie in the development of new homogeneous catalysts and processes for the selective deoxygenation of sugars, sugar alcohols and triglycerides to petrochemicals or monomers and the upgrading of pyrolysis bio-oil, as obtained from non-food ligno-cellulosic biomass, to usable fuel using heterogeneous catalysts, notably non-toxic sacrificial catalysts derived from Bauxite mining waste (Red Mud). He has published more than 40 papers and holds 3 patents.

Professor Z. Conrad Zhang received his B.S. in Chemistry from Lanzhou University, China in 1982 and his Ph.D. in Chemistry from the University of Connecticut in 1988. He carried postdoctoral research at Northwestern University on zeolite catalysts and zeolite supported metal catalysts.  He later became a research assistant professor at the Catalysis Center of Northwestern University.  He started his industrial research career in 1992 with Johnson Matthey, and shortly after joined Akzo Nobel’s Central Research as a senior chemist. He became a senior scientist at Akzo Nobel and

Summarizes how homogeneous metal complex catalysts have been applied to the hydrodeoxygenation of sugars, polyalcohols and their derivatives and the associated reaction mechanisms

Shows how theoretical approaches help us to understand the mechanisms of catalytic conversions of sugars and their condensation and decomposition pathways

Discusses the mechanism of the catalytic dehydration of lactic to acrylic acid, the hydrogenolysis of lignin to reduced aromatics or its oxidation to value-added products

Considers important aspects of the mechanisms of biomass pyrolysis and gasification