Homogeneous Catalysis Mechanisms and Industrial Applications

The only up-to-date, concise textbook available for a short course in organometallic chemistry and homogeneous catalysis, Homogeneous Catalysis clearly explains the basic principles of organometallic chemistry, homogeneous catalysis, and relevant technological issues. Providing a balanced treatment of the recent breakthroughs and developments while also detailing earlier discoveries and the fundamentals of homogeneous catalysis, the text provides problems and answers, along with real-life case studies, extensive references to cutting-edge research with application potential and leading patents, and examples from proven industrial processes with clear discussions on environmental and techno-commercial issues.

Sumit Bhaduri received his Ph.D. from the University of Cambridge and conducted post-doctoral research at Universidad di Milano, the University of Cambridge, and Northwestern University. He has over 20 years of experience in corporate R&D, covering areas as diverse as pharmaceutical intermediates, polyolefin catalysts, and cement, and he has additionally worked with Northwestern University for over 15 years as a Visiting Professor.

 Doble Mukesh received B. Tech and M. Tech degrees in Chemical Engineering from IIT, Madras, India, a Ph. D. from University of Aston, Birmingham, UK, and conducted postdoctoral work at the University of Cambridge, U.K., and Texas A&M. He is currently a Professor in the Department of Biotechnology at IIT Madras (India) and has previously worked for 20 years in Imperial Chemical Industries (ICI) and General Electric Technology centers. He has authored or coauthored 165 technical papers, five books and filed 4 patents. He is a recipient of Herdillia Award for "Excellence in Basic Research" from Indian Institute of Chemical Engineers, a Fellow of the Royal Society of Chemistry, a member of the American and Indian Institute of Chemical engineers, and on the editorial board of the journal CHEMICAL ENGINEERING (McGraw Hill).

1. Chemical Industry and Homogeneous Catalysis

1.1 Feed Stocks, Fuels and Catalysts

1.2 Crude Oil to Gasoline and Basic Building Blocks by Heterogeneous catalysts

1.3 Basic Building Blocks to Downstream Products by Homogeneous Catalysis

1.4 Comparison among Different Types of Catalysis

1.5 Catalyst Recovery

1.6 Environmental Issues

Problems

Bibliography

2. Basic Chemical Concepts

2.1 Ligands

2.2 Metals

2.3 Important Reaction Types

Problems

Bibliography

3. Methods of Investigation

3.1 Catalytic cycle and intermediates

3.2 Spectroscopic Studies

3.3 Kinetic Studies

3.4 Model Compounds

3.5 Computational Techniques (Theoretical Calculation)

3.6 Asymmetric Catalysis

Problems

Bibliography

4. Carbonylation and Related Reactions

4.1 Introduction

4.2 Carbonylation and Manufacture of Acetic Acid

4.3 Carbonylation of Other Alcohols

4.4 Carbonylation of Methyl Acetate

4.5 Carbonylation of Alkynes

4.6 Other carbonylation and hydrocarboxylation reactions

4.7 C₁-Chemistry

4.8 Engineering Aspects

Problems

Bibliography

5. Hydrogenation and Other Hydrogen Based Catalytic Reactions

5.1 Hydrogenation

5.2 Hydroformylation

5.3 Other Hydroformylation reactions

5.4 Asymmetric Hydroformylation

5.5 Hydrosilylation

5.6 Hydrocyanation

5.7 Hydroamination

Problems

Bibliography

6. Polymerization and Selective Oligomerization of Alkenes

6.1 Introduction

6.2 Early Catalysts for Polyethylene and Polypropylene

6.3 Modern Ziegler-Natta Catalyst

6.4 Mechanistic Studies

6.5 Single Site Catalysts

6.6 Ethylene Polymerization with Polar comonomers

6.7 Polymers of Other Alkenes

6.8 Oligomerization of Ethylene

6.9 Engineering Aspects

Problems

Bibliography

7. Selective C-C Bond Forming Reactions With Alkenes

7.1 Introduction

7.2 Di-, Tri-, Tetramerization and Codimerization reactions

7.3 Metathesis Reactions

7.4 Pd-Catalyzed Cross Coupling Reactions

7.5 Metal catalyzed Cyclopropanation and Cycloaddition

Problems

Bibliography

8. Oxidation

8.1 Introduction

8.2 Wacker Oxidation

8.3 Metal-Catalyzed Liquid-Phase Autoxidation

8.4 Polymers from Autoxidation Products

8.5 Selective Oxidations

8.6 Engineering and Safety Considerations

Problems

Bibliography