國外化學名著系列6

REACTIONS REACTIONS REACTIONS

圖書信息

出版社: 科學出版社; 第1版 (2008年3月1日)
叢書名: 國外化學名著系列
平裝: 407頁
正文語種: 簡體中文
開本: 16
ISBN: 9787030211859
條形碼: 9787030211859
尺寸: 24.2 x 17.2 x 2.4 cm
重量: 739 g

作者簡介

編者:(荷蘭)范立文

內容簡介

《國外化學名著系列6(影印版)》基於作者在教學及工業實踐方面廣泛的經驗,探討了許多新的和舊的重要反應。每章均以基礎知識開始,以最新的內容結束。《國外化學名著系列6(影印版)》側重於要領但也列舉了許多實驗室合成有機化學品的關鍵工業流程和套用流程。全書涵蓋精細化學品,大宗化學品,聚合物,高技術聚合物,藥品,也包括重要的技巧和反應類型等。同時還介紹了一些反應過程、環境問題和案全問題。

目錄

Preface
Acknowledgements
1. INTRODUCTION
1.1 CATALYSIS
1.2 HOMOGENEOUS CATALYSIS
1.3 HISTORICAL NOTES ON HOMOGENEOUS CATALYSIS
1.4 CHARACTERISATION OF THE CATALYST
1.5 LIGAND EFFECTS
1.5.1 Phosphines and phosphites: electronic effects
1.5.2 Phosphines and phosphites: steric effects
1.5.3 Linear Free Energy Relationships
1.5.4 Phosphines and phosphites: bite angle effects
1.6 LIGANDS ACCORDING TO donor Atoms
1.6.1 Anionic and neutral hydrocarbyl groups
1.6.2 Alkoxy and imido groups as anionic ligands
1.6.3 Amines, imines, oxazolines and related ligands
1.6.4 Phosphines, phosphites, phosphorus amides, phospholes and related ligands
1.6.5 Carbenes, carbon monoxide
1.6.6 Common anions
2. ELEMENTARY STEPS
2.1 CREATION OF A "VACANT" SITE AND CO-ordination OF THE SUBSTRATE
2.2 INSERTION VERSUS MIGRATION
2.3 β-ELIMINATION AND DE-INSERTION
2.4 OXIDATIVE ADDITION
2.5 REDUCTIVE ELIMINATION
2.6 α-ELIMINATION REACTIONS
2.7 CYCLOADDITION REACTIONS INVOLVING A METAL
2.8 ACTIVATION OF A SUBSTRATE TOWARD NUCLEOPHILIC ATTACK
2.8.1 Alkenes
2.8.2 Alkynes
2.8.3 Carbon monoxide
2.8.4 Other substrates
2.9 a-BOND METATHESIS
2.10 DIHYDROGEN ACTIVATION
2.11 ACTIVATION BY LEWIS ACIDS
2.11.1 Diels-alder additions
2.11.2 Epoxidation
2.11.3 Ester condensation
2.12 CARBON-TO-PHOSPHORUS BOND BREAKING
2.13 CARBON-TO-SULFUR BOND BREAKING
2.14 RADICAL REACTIONS
3. KINETICS
3.1 INTRODUCTION
3.2 TWO-STEP REACTION SCHEME
3.3 SIMPLIFICATIONS OF THE RATE EQUATION AND THE RATEDETERMINING STEP
3.4 DETERMINING THE SELECTIVITY
3.5 COLLECTION OF RATE DATA
3.6 IRREGULARITIES IN CATALYSIS
4. HYDROGENATION
4.1 WILKINSON'S CATALYST
4.2 ASYMMETRIC HYDROGENATION
4.2.1 Introduction
4.2.2 Cinnamic acid derivatives
4.2.3 Chloride versus weakly coordinating anions; alkylphosphines versus arylphosphines
4.2.4 incubation times
4.3 OVERVIEW OF CHIRAL BIDENTATE LIGANDS
4.3.1 DUPHOS
4.3.2 BINAP catalysis
4.3.3 Chiral ferrocene based ligands
4.4 MONODENTATE LIGANDS
4.5 NON-LINEAR EFFECTS
4.6 HYDROGEN TRANSFER
5. ISOMERISATION
5.1 HYDROGEN SHIFTS
5.2 ASYMMETRIC ISOMERISATION
5.3 OXYGEN SHIFTS
6. CARBONYLATION OF METHANOL AND METHYL ACETATE
6.1 ACETIC ACID
6.2 PROCESS SCHEME MONSANTO PROCESS
6.3 ACETIC ANHYDRIDE
6.4 OTHER SYSTEMS
6.4.1 Higher alcohols
6.4.2 Phosphine-modified rhodium catalysts
6.4.3 Other metals
7. COBALT CATALYSED HYDROFORMYLATION
7.1 INTRODUCTION
7.2 THERMODYNAMICS
7.3 COBALT CATALYSED PROCESSES
7.4 COBALT CATALYSED PROCESSES FOR HIGHER ALKENES
7.5 KUHLMANN COBALT HYDROFORMYLATION PROCESS
7.6 PHOSPHINE MODIFIED COBALT CATALYSTS: THE SHELL PROCESS
7.7 COBALT CARBONYL PHOSPHINE COMPLEXES
7.7.1 Carbonyl species
7.7.2 Phosphine derivatives
8. RHODIUM CATALYSED HYDROFORMYLATION
8.1 INTRODUCTION
8.2 TRIPHENYLPHOSPHINE AS THE LIGAND
8.2.1 The mechanism
8.2.2 Ligand effects and kinetics
8.2.3 Regioselectivity
8.2.4 Process description, rhodium-tpp
8.2.5 Two-phase process, tppts: Ruhrchemie/Rhone-Poulenc
8.2.6 One-phase catalysis, two-phase separation
8.3 DIPHOSPHINES AS LIGANDS
8.3.1 Xantphos ligands: tuneable bite angles
8.4 PHOSPHITES AS LIGANDS
8.4.1 Electronic effects
8.4.2 Phosphites: steric effects
8.5 DIPHOSPHITES
8.6 ASYMMETRIC HYDROFORMYLATION
8.6.1 Rhodium catalysts: diphosphites
8.6.2 Rhodium catalysts: phosphine-phosphite ligands
9. ALKENE OLIGOMERISATION
9.1 INTRODUCTION
9.2 SHELL-HIGHER-OLEFINS-PROCESS
9.2.1 Oligomerisation
9.2.2 Separation
9.2.3 Purification, isomerisation, and metathesis
9.2.4 New catalysts
9.3 ETHENE TRIMERISATION
9.4 OTHER ALKENE OLIGOMERISATION REACTIONS
10. propene POLYMERISATION
10.1 INTRODUCTION TO POLYMER CHEMISTRY
10.1.1 Introduction to Ziegler Natta polymerisation
10.1.2 History of homogeneous catalysts
10.2 MECHANISTIC INVESTIGATIONS
10.2.1 Chain-end control: syndiotactic polymers
10.2.2 Chain-end control: isotactic polymers
10.3 ANALYSIS BY13C NMR SPECTROSCOPY
10.3.1 Introduction
10.3.2 Chain-end control
10.3.3 Site control mechanism
10.4 THE DEVELOPMENT OF METALLOCENE CATALYSTS
10.4.1 Site control: isotactic polymers
10.4.2 Site control: syndiotactic polymers
10.4.3 Double stereoselection: chain-end and site control
10.5 AGOSTIC INTERACTIONS
10.6 THE EFFECT OF DIHYDROGEN
10.7 FURTHER WORK USING PROPENE AND OTHER ALKENES
10.8 NON-METALLOCENE ETM CATALYSTS
10.9 LATE TRANSITION METAL CATALYSTS
11. HYDROCYANATION OF ALKENES
11.1 THE ADIPONITRILE PROCESS
11.2 LIGAND EFFECTS
12. PALLADIUM CATALYSED CARBONYLATIONS OF ALKENES
12.1 INTRODUCTION
12.2 POLYKETONE
12.2.1 Background and history
12.2.2 Elementary steps: initiation
12.2.3 Elementary steps: migration reactions
12.2.4 Elementary steps: chain termination, chain transfer
12.2.5 Elementary steps: ester formation as chain termination
12.3 LIGAND EFFECTS ON CHAIN LENGTH
12.3.1 Polymers
12.3.2 Ligand effects on chain length: Propanoate
12.3.3 Ligand effects on chain length: Oligomers
12.4 ETHENE/PROPENE/CO TERPOLYMERS
12.5 STEREOSELECTIVE STYRENE/CO COPOLYMERS
13. PALLADIUM CATALYSED CROSS-COUPLING REACTIONS
13.1 INTRODUCTION
13.2 ALLYLIC ALKYLATION
13.3 HECK REACTION
13.4 CROSS-COUPLING REACTION
13.5 HETEROATOM-CARBON BOND FORMATION
13.6 SUZUKI REACTION
14. EPOXIDATION
14.1 ETHENE AND PROPENE OXIDE
14.2 ASYMMETRIC EPOXIDATION
14.2.1 Introduction
14.2.2 Katsuki-Sharpless asymmetric epoxidation
14.2.3 The Jacobsen asymmetric epoxidation
14.3 ASYMMETRIC HYDROXYLATION OF ALKENES WITH osmium TETROXIDE
14.3.1 Stoichiometric reactions
14.3.2 catalytic reactions
14.4 JACOBSEN ASYMMETRIC RING-OPENING OF EPOXIDES
14.5 EPOXIDATIONS WITH DIOXYGEN
15. OXIDATION WITH DIOXYGEN
15.1 INTRODUCTION
15.2 THE WACKIER REACTION
15.3 WACKIER TYPE REACTIONS
15.4 TEREPHTHALIC ACID
15.5 PPO
16. ALKENE METATHESIS
16.1 INTRODUCTION
16.2 THE MECHANISM
16.3 REACTION OVERVIEW
16.4 WELL-CHARACTERISED TUNGSTEN AND MOLYBDENUM CATALYSTS
16.5 RUTHENIUM CATALYSTS
16.6 STEREOCHEMISTRY
16.7 CATALYST DECOMPOSITION
16.8 ALKYNES
16.9 INDUSTRIAL APPLICATIONS
17. ENANTIOSELECTIVE CYCLOPROPANATION
17.1 INTRODUCTION
17.2 COPPER CATALYSTS
17.3 RHODIUM CATALYSTS
17.3.1 Introduction
17.3.2 Examples of rhodium catalysts
18. HYDROSILYLATION
18.1 INTRODUCTION
18.2 PLATINUM CATALYSTS
18.3 ASYMMETRIC PALLADIUM CATALYSTS
18.4 RHODIUM CATALYSTS FOR ASYMMETRIC KETONE REDUCTION
19. C-H FUNCTIONALISATION
19.1 INTRODUCTION
19.2 ELECTRON-RICH METALS
19.3 HYDROGEN TRANSFER REACTIONS OF ALKANES
19.4 BORYLATION OF ALKANES
19.5 THE MURAI REACTION
19.6 CATALYTIC a-BOND METATHESIS
19.7 ELECTROPHILIC CATALYSTS
SUBJECT INDEX

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