Organic Chemistry Workbook
Theory, Reactivity and Mechanisms in Modern Synthesis
This is the accompanying workbook to the textbook 'Organic Chemistry - Theory, Reactivity and Mechanisms in Modern Synthesis' by P. Vogel and K. Houk.
Prof. Kendall Houk is Saul Winstein Professor at the UCLA. He is an authority on theoretical and computational organic chemistry. His group develops rules to understand reactivity, computationally models complex organic reactions, and experimentally tests the predictions of theory. He collaborates prodigiously with chemists all over the world. He has published nearly 1100 articles in refereed journals and is among the 100 most-cited chemists.
Prof. Pierre Vogel is Professor of organic chemistry at the EPFL in Lausanne, Switzerland. He has published three books and has co-authored more than 490 publications in the fields of physical organic chemistry, organic and organometallic synthesis, total asymmetric synthesis of natural products of biological interest, catalysis, glycochemistry and bio-organic chemistry.
Prof. Kendall Houk is Saul Winstein Professor at the UCLA. He is an authority on theoretical and computational organic chemistry. His group develops rules to understand reactivity, computationally models complex organic reactions, and experimentally tests the predictions of theory. He collaborates prodigiously with chemists all over the world. He has published nearly 1100 articles in refereed journals and is among the 100 most-cited chemists.
Prof. Pierre Vogel is Professor of organic chemistry at the EPFL in Lausanne, Switzerland. He has published three books and has co-authored more than 490 publications in the fields of physical organic chemistry, organic and organometallic synthesis, total asymmetric synthesis of natural products of biological interest, catalysis, glycochemistry and bio-organic chemistry.
1;Cover;12;Title Page;53;Copyright;64;Contents;75;Chapter 1 Equilibria and Thermochemistry;95.1;Answers to Problems;95.2;References;336;Chapter 2 Additivity Rules for Thermodynamical Parameters and Deviations;356.1;Answers to Problems;356.2;References;687;Chapter 3 The Rates of Chemical Reactions;697.1;Answers to Problems;697.2;3.1 Additional Material;877.2.1;3.1.1 The Bell-Evans-Polanyi Theory for Radical Exchanges;877.2.2;3.1.2 The Effect of Reactant Polarizability;887.2.3;3.1.3 The Effect of Exothermicity;907.2.4;3.1.4 The Hammond-Leffler Postulate is a Theorem Demonstrated by the Bell-Evans-Polanyi Theory;917.2.5;3.1.5 The Selectivity/Reactivity Relationship;927.3;References;938;Chapter 4 Molecular Orbital Theories;978.1;Answers to Problems;978.2;References;1059;Chapter 5 Pericyclic Reactions;1079.1;Answers to Problems;1079.2;Additional Material;1569.3;References;15710;Chapter 6 Organic Photochemistry;16110.1;Answers to Problems;16110.2;Additional Material;19910.3;References;20011;Chapter 7 Catalytic Reactions;20511.1;Answers to Problems;20511.2;References;22812;Chapter 8 Transition?Metal?Catalyzed C-C Bond Forming Reactions;23112.1;Answers to Problems;23112.2;References;28613;EULA;291
ISBN | 9783527819287 |
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Artikelnummer | 9783527819287 |
Medientyp | E-Book - PDF |
Copyrightjahr | 2019 |
Verlag | Wiley-VCH |
Umfang | 291 Seiten |
Sprache | Englisch |
Kopierschutz | Adobe DRM |