Heterogeneous Micro and Nanoscale Composites for the Catalysis of Organic Reactions
- 1st Edition - November 10, 2021
- Imprint: Elsevier
- Editor: Ali Maleki
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 2 4 5 2 7 - 9
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 8 5 2 8 9 - 0
Heterogeneous Micro and Nanoscale Composites for the Catalysis of Organic Reactions discusses the major properties and applications of heterogeneous micro and nanoscale composite… Read more
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Request a sales quoteHeterogeneous Micro and Nanoscale Composites for the Catalysis of Organic Reactions discusses the major properties and applications of heterogeneous micro and nanoscale composites, including surface coating and functionalization capability, effective physical properties, recovery and reusability, biocompatibility and biodegradability. In addition, preparation strategies and essential analytical methods for the characterization of these materials are investigated. The effects of morphology, porosity and sizes of these composites on catalytic activity are also discussed. This book is an important reference source for materials engineers and chemical engineers who are interested in heterogeneous, thin-scaled materials and catalyzed organic synthesis reactions.
In addition, this book will help researchers design novel structures and apply them in catalytic applications.
- Provides information on the preparation, characterization and applications of catalysis of organic reactions
- Outlines the major catalytic applications of heterogenous nanocomposites
- Assesses the major challenges of manufacturing heterogenous nanocomposites on an industrial scale
Materials scientists and engineers
- Cover image
- Title page
- Table of Contents
- Copyrigh
- Contributors
- Preface
- 1: Classification of micro and nanoscale composites
- Abstract
- 1.1: Metallic particles
- 1.2: Metal oxide particles
- 1.3: Metal-organic frameworks
- 1.4: Nonmetallic materials
- 1.5: Hybrid materials
- 1.6: Natural-based materials
- 1.7: Porous materials
- References
- 2: Preparation and synthetic methods
- Abstract
- 2.1: Liquid-liquid blending
- 2.2: Precipitation and co-precipitation
- 2.3: Complexation
- 2.4: Gelation
- 2.5: Solid-solid blending
- 2.6: Liquid-solid blending
- 2.7: Impregnation
- 2.8: Impregnation by soaking or with an excess of the solution
- References
- 3: Identification and analytical methods
- Abstract
- 3.1: Structural techniques
- 3.2: Surface structure and topography
- 3.3: Optical spectroscopies
- 3.4: Nuclear magnetic resonance (NMR)
- 3.5: Electron spin resonance (ESR)
- 3.6: Determination of spatial distribution of elements
- 3.7: Energy dispersive X-ray spectroscopy (EDS, EDX)
- 3.8: Electron energy loss spectroscopy (EELS)
- 3.9: Adsorption-desorption and thermal techniques
- 3.10: Surface area and pore structure
- References
- 4: Chemistry of micro and nanoscale composites
- Abstract
- 4.1: Acidity and basicity
- 4.2: Heterogeneous acid and basic composite catalysts
- 4.3: Synergetic catalytic effect in micro and nanocomposite catalysts
- References
- 5: Physical aspects of micro and nanoscale composites
- Abstract
- 5.1: Surface area and porosity
- 5.2: Particle size and shape
- 5.3: Magnetism
- References
- 6: Effectiveness of morphology and size
- Abstract
- 6.1: Introduction
- References
- 7: Famous catalyzed organic reactions
- Abstract
- 7.1: Oxidation reactions
- 7.2: Coupling reactions
- 7.3: Mizoroki-Heck couplings
- 7.4: Reduction reaction
- References
- 8: Separation and purification methods in various organic reactions
- Abstract
- References
- 9: Porous micro and nanoscale composites
- Abstract
- References
- 10: Recovery and reusability of catalysts in various organic reactions
- Abstract
- 10.1: Homogeneous and heterogeneous catalysis
- References
- 11: Natural-based micro and nanoscale composites
- Abstract
- References
- 12: Synergistic photocatalytic effect
- Abstract
- 12.1: Introduction
- 12.2: Photochemical reactions
- 12.3: Semiconductors
- 12.4: History of photocatalysis
- 12.5: Applications
- References
- 13: Synergistic catalytic effects by ultrasound wave irradiation
- Abstract
- 13.1: Introduction
- 13.2: History of ultrasound
- 13.3: Sonochemistry
- 13.4: Sonocatalyst
- 13.5: Comparison of sono, conventional, and photocatalytic mechanism
- 13.6: Ultrasound bath
- 13.7: Biological effects of ultrasound
- 13.8: Ultrasound effects on the synthesis
- 13.9: Ultrasound effects on the homogeneous and heterogeneous catalytic systems
- 13.10: Conclusions
- References
- 14: Industrial view of heterogeneous micro and nanocomposites
- Abstract
- 14.1: Introduction
- 14.2: Composites
- 14.4: Based on the amplifier phase
- 14.5: Based on size
- 14.3: Based on the phase of the matrix, composites are divided into three categories
- 14.6: Applications of nanocomposites
- References
- 15: Turn over number (TON) and turn over frequency (TOF) studies for heterogeneous micro and nanocomposite catalysts
- Abstract
- 15.1: History
- 15.2: Experimental method for studying active sites
- 15.3: The challenge of counting catalysts active sites
- References
- 16: Future perspective
- Abstract
- References
- Index
- Edition: 1
- Published: November 10, 2021
- No. of pages (Paperback): 268
- No. of pages (eBook): 268
- Imprint: Elsevier
- Language: English
- Paperback ISBN: 9780128245279
- eBook ISBN: 9780323852890
AM
Ali Maleki
Ali Maleki is a full Professor in the Department of Chemistry at Iran University of Science and Technology, Tehran, Iran. His research interest are in green chemistry, multicomponent reactions, organic synthesis, heterocycles, pharmaceutical compounds, nanochemistry, magnetic, polymer, composite, hybrid, core/shell nanomaterials, catalysts and catalytic reactions.
Affiliations and expertise
Full Professor, Department of Chemistry, Iran University of Science and Technology, Tehran, IranRead Heterogeneous Micro and Nanoscale Composites for the Catalysis of Organic Reactions on ScienceDirect