出版时间:2009-1 出版社:科学出版社 作者:(美)卡雷(Carey,F.A.),(美)松德贝里(Sundberg,R.J.) 页数:1199
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内容概要
自从1997年面世以来,《高等有机化学》作为学科首选教材的地位一直没有动摇过,广泛地覆盖了有机化合物的结构、反应活性及合成。她的第五版相对2001年出版的第四版进行了大幅度的修订,更新了学科发展的相关资料,内容组织更加清晰明朗,特别是计算化学部分。Part A从化合物结构和立体化学基础概念讲起,涉及有机化学反应热力学和动力学的方方面面。主要反应类型涵盖亲核取代反应、加成反应、碳负离子和羰基化学反应、芳环取代反应、周环反应、自由基反应和光化学反应。每章后附有习题精选及解答习题的推荐参考文献。 本书可供有机化学、药物化学和生物化学等专业的高年级本科生、研究生以及相关领域的科研人员参考。
作者简介
作者:(美国)卡雷 (Carey.F.A.) (美国)松德贝里 (Sundberg.R.J.)
书籍目录
PrefaceAcknowledgment and Personal StatementIntroductionChapter 1. Chemical Bonding and Molecular Structure Introduction 1.1. Description of Molecular Structure Using Valence Bond Concepts 1.1.1. Hybridization 1.1.2. The Origin of Electron-Electron Repulsion 1.1.3. Electronegativity and Polarity 1.1.4. Electronegativity Equalization 1.1.5. Differential Electronegativity of Carbon Atoms 1.1.6. Polarizability, Hardness, and Softness 1.1.7. Resonance and Conjugation 1.1.8. Hyperconjugation 1.1.9. Covalent and van der Waals Radii of Atoms 1.2. Molecular Orbital Theory and Methods 1.2.1. The Hiickel MO Method 1.2.2. Semiempirical MO Methods 1.2.3. Ab Initio Methods 1.2.4. Pictorial Representation of MOs for Molecules 1.2.5. Qualitative Application of MO Theory to Reactivity: Perturbational MO Theory and Frontier Orbitals 1.2.6. Numerical Application of MO Theory 1.3. Electron Density Functionals 1.4. Representation of Electron Density Distribution 1.4.1. Mulliken Population Analysis 1.4.2. Natural Bond Orbitals and Natural Population Analysis 1.4.3. Atoms in Molecules 1.4.4. Comparison and Interpretation of Atomic Charge Calculations 1.4.5. Electrostatic Potential Surfaces 1.4.6. Relationships between Electron Density and Bond Order Topic 1.1. The Origin of the Rotational (Torsional) Barrier in Ethane and Other Small Molecules Topic 1.2. Heteroatom Hyperconjugation (Anomeric Effect) in Acyclic Molecules Topic 1.3. Bonding in Cyclopropane and Other Small Ring Compounds Topic 1.4. Representation of Electron Density by the Laplacian Function Topic 1.5. Application of Density Functional Theory to Chemical Properties and Reactivity T. 1.5.1. DFT Formulation of Chemical Potential, Electronegativity, Hardness and Softness,and Covalent and van der Waal Radii T. 1.5.2. DFT Formulation of Reactivity--The Fukui Function .. T. 1.5.3. DFT Concepts of Substituent Groups Effects General References ProblemsChapter 2. Stereoehemistry, Conformation, and Stereoselectivity... " Introduction 2.1. Configuration 2.1.1. Configuration at Double Bonds 2.1.2. Configuration of Cyclic Compounds 2.1.3. Configuration at Tetrahedral Atoms 2.1.4. Molecules with Multiple Stereogenic Centers 2.1.5. Other Types of Stereogenic Centers 2.1.6. The Relationship between Chirality and Symmetry 2.1.7. Configuration at Prochiral Centers 2.1.8. Resolution--The Separation of Enantiomers 2.2. Conformation 2.2.1. Conformation of Acyclic Compounds 2.2.2. Conformations of Cyclohexane Derivatives 2.2.3. Conformations of Carbocyclic Rings of Other Sizes 2.3. Molecular Mechanics 2.4. Stereoselective and Stereospecific Reactions 2.4.1. Examples of Stereoselective Reactions 2.4.2. Examples of Stereospecific Reactions 2.5. Enantioselective Reactions 2.5.1. Enantioselective Hydrogenation 2.5.2. Enantioselective Reduction of Ketones 2.5.3. Enantioselective Epoxidation of Allylic Alcohols 2.5.4. Enantioselective Dihydroxylation of Alkenes 2.6. Double Stereodifferentiation: Reinforcing and Competing Stereoselectivity ……Chapter 3. Strucral Effects on Stability and ReactivityChapter 4. Nucleophilic SubstitutionChapter 5. Polar Addition and Elimination ReactionsChapter 6. Carbanions and Other Carbon NucleophilesChapter 7. Addition,Condensation and Substitution Reactions of Carbonyl CompoundsChapter 8. AromatictityChapter 9. Aromatic SubstitutionChapter 10. Concerted Pericyclic ReactionsChapter 11. Free Radical ReactionsChapter 12. PhotochemistryReferences to ProblemsIndex
章节摘录
插图:The stabilization provided by various functional groups contributes to reducedBDEs for bonds to the stabilized radical center. Computational methods can be usedto assess these effects. The BDE can be calculated by comparing the total energy ofthe dissociated radicals with the reactant. Differences in bond dissociation energiesrelative to methane (ABDE) can be taken as a measure of the stabilizing effect of thesubstituent on the radical. Some computed ABDE values are given in Table 3.19 andcompared with experimental values. As an example of the substituent effect on BDEs,it can be seen that the primary C-H bonds in acetonitrile (12 kcal/mol) and acetone(11 kcal/mol) are significantly weaker than a primary C-H bond in methane. The datashow that both electron-releasing and electron-with&awing functional groups stabilizeradicals. The strong bond-weakening effect of amino substituents is noteworthy, bothin its size and the apparent underestimation of this effect by the computations. A recentreevaluation of the ABDE for amines arrived at a value of 13 + 1 kcal/mol, which isin better agreement with the calculations.102b
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《高等有机化学:结构与机理(第5版)》可供有机化学、药物化学和生物化学等专业的高年级本科生、研究生以及相关领域的科研人员参考。
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