Enzymatic Activation Of Alkanes Constraints And Prospects Hockey
- Enzymatic Activation Of Alkanes Constraints And Prospects Hockey Team
- Enzymatic Activation Of Alkanes Constraints And Prospects Hockey 2017
Light alkanes tend to be resistant to many forms of activation. The horizontal approach of the present book covers homogeneous, heterogeneous and biological catalysis, thus allowing readers to gain an awareness of progress and ideas in research areas different from their own. The book contains both general chapters, giving an overview of the subject, and specialised contributions that deal with the details and state of the art. A specialist report is also included which gives a critical insight into current progress and discusses future prospects and major challenges.Audience: Newcomers and senior researchers in the field of alkane activation. The mixed theoretical and practical approach will be of interest to researchers and industrialists alike.
Section 1: Lectures. Upgrading of C1 and C2 Hydrocarbons; P.L.
Transformation of Alkanes on Solid Acid and Bifunctional Catalysts; A. Activation of Light Alkanes: Past and Present; I.V. Superacid Catalysed Protolytic Activation, H/D Exchange and Oxidation of Small Alkanes; J. Sommer, et al. New Processes for Carbon-Carbon Bond Activation Catalysed by Oxide Supported Surface Organometallic Complexes; G.P. Niccolai, J.-M.
Selective Oxidation of Light Alkanes; G.J. Theoretical Basis of the Activation of C-H Bond; J. An Introduction to Molecular Heterogeneous Catalysis; C.R.A. Catlow, et al. Mono- and Binuclear Iron Complexes in Zeolites and Mesoporous Oxides as Biomimetic Alkan Oxidation Catalysts; P.P. Knops-Gerrits, et al.
Biocatalytic, Biomimetic and Suprabiotic Oxidation of Alkanes; R.A. High Yield, Low Temperature Oxidation of Methane to Methanol; R.A. Periana, et al. Functionalization of Light Alkanes Catalyzed by Heteropoly Compounds; N. Alkane Activation by Pseudo-Metals; G. Molecular Chemistry of Alkane Activation: Formation and Reaction of Chx Species on Metal Surfaces; F. Section 2: Communications.
The Effect of Acid Sites in Skeletal Isomerization of n-Butenes over Ferrierites and CoAlPO-11; J. Cejka, et al. Oxidative Dehydrogenation of Propane on Large-Pore Zeolites; M. Derewinski, et al. Oxidative Coupling of Methane over Sodium-Manganese Catalysts in the Presence of HCl; E.V. Shischak, et al.
Mono- and Binuclear Iron Complexes in Zeolites, Clays and Mesoporous Oxides as Biomimetic Catalysts; P.P. Knops-Gerrits, P.A. Jacobs.Mixed M2O3.Zro2.SO42- (M=Ga, In, Tl) Catalysts: Preparation, Characterisation and Catalytic Behaviour in Dehydroisomerisation of n-Hexane; V.
Parvulescu, et al. The Selective Oxidation of n-Butane to Maleic Anhydride; Development of Silica- and Titania Supported V-P-O Catalysts; M. Ruitenbeek, et al. The Effect of Cobalt Doping on the Structural Transformation Sequences Occurring during the Activation of Vanadium Phosphorus Oxide Catalysts; S.
Sajip, et al. On the Active Sites for Selective Ammoxidation of Propane on Vanadium Containing Oxide Catalysts; H. Theoretical Modelling of Propane Partial Oxidation over Titanium Silicalites; G.N. Chlorinated Alumina Catalyst for Isobutane/2-Butene Alkylation: Influence of Added Noble Metals; J.M.
Goupil, et al. Section 3: EC Workshop. Report of the Workshop on Challenges and Opportunities in Light Alkane Activation; J.A. Labinger, G.J. List of Participants. Subject Index.
Author Index.
Enzymatic Activation Of Alkanes Constraints And Prospects Hockey Rating: 5,8/10 8848votesMulti-element isotope fractionation concepts to characterize the. Several enzymatic hydrocarbon activation.
A number of enzyme-related constraints. Use of Perfluorocarboxylic Acids To Trick Cytochrome P450BM3 into Initiating the Hydroxylation of Gaseous Alkanes. Enzyme catalysis; gaseous alkanes. Part of the book series (ESE) Abstract Petroleum hydrocarbons are introduced into the environment through excessive use of fuels and accidental spills during transportation and storage. Alkanes, a major fraction of crude oil, are saturated hydrocarbons and hence are chemically inert as non-polar molecules.However, a number of bacterial and fungal genera have been reported to degrade even high molecular weight alkanes in both aerobic and anaerobic conditions.
Enzymatic Activation Of Alkanes Constraints And Prospects Hockey Team
Enzymatic Activation Of Alkanes Constraints And Prospects Hockey 2017
The degradation process mainly involved enzymes such as methane monooxygenase (MMO), alkane hydroxylase and cytochrome P450 monooxygenase. Besides, a number of environmental factors affect the degradation of alkanes in soils.