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Details for:
Van Leeuwen P. Supramolecular Catalysis. New Directions...2022
van leeuwen p supramolecular catalysis new directions 2022
Type:
E-books
Files:
1
Size:
8.1 MB
Uploaded On:
May 31, 2022, 9:12 a.m.
Added By:
andryold1
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1
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0
Info Hash:
D9CA35DA841936E235E34B84E90278187943859F
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Textbook in PDF format Supramolecular Catalysis Provides a timely and detailed overview of the expanding field of supramolecular catalysis The subdiscpline of supramolecular catalysis has expanded in recent years, benefiting from the development of homogeneous catalysis and supramolecular chemistry. Supramolecular catalysis allows chemists to design custom-tailored metal and organic catalysts by devising non-covalent interactions between the various components of the reaction. Edited by two world-renowned researchers, Supramolecular Catalysis: New Directions and Developments summarizes the most significant developments in the dynamic, interdisciplinary field. Contributions from an international panel of more than forty experts address a broad range of topics covering both organic and metal catalysts, including emergent catalysis by self-replicating molecules, switchable catalysis using allosteric effects, supramolecular helical catalysts, and transition metal catalysis in confined spaces. This authoritative and up-to-date volume: Covers ligand-ligand interactions, assembled multi-component catalysts, ligand-substrate interactions, and supramolecular organocatalysis and non-classical interactions Presents recent work on supramolecular catalysis in water, supramolecular allosteric catalysis, and catalysis promoted by discrete cages, capsules, and other confined environments Highlights current research trends and discusses the future of supramolecular catalysis Includes full references and numerous figures, tables, and color illustrations Supramolecular Catalysis: New Directions and Developments is essential reading for catalytic chemists, complex chemists, biochemists, polymer chemists, spectroscopists, and chemists working with organometallics. Supramolecular Construction of Bidentate Ligands Through Self-assembly by Hydrogen Bonding Self-Assembled Bidentate Ligands in Transition Metal Catalysis; From Fundamental Invention to Commercial Application Assembled Ionic Molecular Catalysts and Ligands Self-amplification of Enantioselectivity in Asymmetric Catalysis by Supramolecular Recognition and Stereodynamics Interlocked Molecules in Enantioselective Catalysis Catalytic Supramolecular Gels Supramolecular Helical Catalysts Self-Assembled Multi-Component Supramolecular Catalysts for Asymmetric Reactions Harnessing Ligand–Substrate Non-covalent Interactions for Control of Site-Selectivity in Transition Metal-Catalyzed C–H Activation and Cross-Coupling Supramolecular Interactions in Distal C–H Activation of (Hetero)arenes Transition-Metal-Catalyzed, Site- and Enantioselective Oxygen and Nitrogen Transfer Enabled by Lactam Hydrogen Bonds Supramolecular Substrate Orientation as Strategy to Control Selectivity in Transition Metal Catalysis Phosphine Ligands with Acylguanidinium Groups as Substrate-directing Unit Chemical Reactions Controlled By Remote Zn· · ·N Interactions Between Substrates and Catalysts Artificial Enzymes Created Through Molecular Imprinting of Cross-Linked Micelles Bioinspired Catalysis Using Innately Polarized Pd2L4 Coordination Cages Supramolecular Catalysis with a Cubic Coordination Cage: Contributions from Cavity and External-Surface Binding
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Van Leeuwen P. Supramolecular Catalysis. New Directions...2022.pdf
8.1 MB
