: Xiaoyu Wang, Wenjing Guo, Yihui Hu, Jiangjiexing Wu, Hui Wei
: Nanozymes: Next Wave of Artificial Enzymes
: Springer-Verlag
: 9783662530689
: 1
: CHF 56.80
:
: Maschinenbau, Fertigungstechnik
: English
: 127
: Wasserzeichen/DRM
: PC/MAC/eReader/Tablet
: PDF
This book describes the fundamental concepts, the latest developments and the outlook of the field of nanozymes (i.e., the catalytic nanomaterials with enzymatic characteristics). As one of today’s most exciting fields, nanozyme research lies at the interface of chemistry, biology, materials science and nanotechnology. Each of the book’s six chapters explores advances in nanozymes. Following an introduction to the rise of nanozymes research in the course of research on natural enzymes and artificial enzymes in Chapter 1, Chapters 2 through 5 discuss different nanomaterials used to mimic various natural enzymes, from carbon-based and metal-based nanomaterials to metal oxide-based nanomaterials and other nanomaterials. In each of these chapters, the nanomaterials’ enzyme mimetic activities, catalytic mechanisms and key applications are covered. In closing, Chapter 6 addresses the current challenges and outlines further directions for nanozymes. Presenting extensive information on nanozymes and supplemented with a wealth of color illustrations and tables, the book offers an ideal guide for readers from disparate areas, including analytical chemistry, materials science, nanoscience and nanotechnology, biomedical and clinical engineering, environmental science and engineering, green chemistry, and novel catalysis.
Preface6
Contents8
Abbreviations10
1 Introduction to Nanozymes12
Abstract12
References15
2 Carbon-Based Nanomaterials for Nanozymes18
Abstract18
2.1 Fullerene and Derivatives18
2.1.1 Fullerene and Derivatives as Nuclease Mimics19
2.1.2 Fullerene and Derivatives as SOD Mimics20
2.1.3 Fullerene Derivatives as Peroxidase Mimics23
2.2 Graphene and Derivatives23
2.2.1 Graphene and Its Derivatives as Peroxidase Mimics23
2.2.2 Decorated Graphene (or Its Derivatives) as Peroxidase Mimics26
2.3 Carbon Nanotubes31
2.3.1 Carbon Nanotubes as Peroxidase Mimics31
2.3.2 Carbon Nanotubes as Other Enzyme Mimics33
2.4 Other Carbon-Based Nanomaterials35
2.4.1 Other Carbon Nanomaterials as Peroxidase Mimics35
2.4.2 Other Carbon Nanomaterials as SOD Mimics35
References36
3 Metal-Based Nanomaterials for Nanozymes41
Abstract41
3.1 Metal Nanomaterials with Catalytic Monolayers (Type I)41
3.1.1 AuNPs Protected by Alkanethiol with Catalytic Terminal Moieties42
3.1.2 AuNPs Protected by Alkanethiol with Non-covalently Assembled Catalytic Moieties47
3.1.3 AuNPs Protected by Thiolated Biomolecules49
3.2 Metal Nanomaterials with Intrinsic Enzyme Mimicking Activities (Type II)50
3.2.1 Metal Nanomaterials as GOx Mimics50
3.2.2 Metal Nanomaterials as Multiple Enzyme Mimics51
3.2.3 Applications55
References59
4 Metal Oxide-Based Nanomaterials for Nanozymes66
Abstract66
4.1 Cerium Oxide66
4.1.1 Cerium Oxide as SOD Mimics67
4.1.2 Cerium Oxide as Catalase Mimics73
4.1.3 Cerium Oxide as Peroxidase Mimics75
4.1.4 Cerium Oxide as Oxidase Mimics75
4.1.5 Cerium Oxide as Other Mimics76
4.2 Iron Oxide77
4.2.1 Iron Oxide as Peroxidase Mimics77
4.2.2 Iron Oxide as Other Enzyme Mimics85
4.3 Other Metal Oxides87
4.3.1 Vanadium Oxide as Enzyme Mimics87
4.3.2 Cobalt Oxide as Enzyme Mimics87
4.3.3 Copper Oxide as Enzyme Mimics90
4.3.4 MoO3, TiO2, MnO2, RuO2 as Enzyme Mimics90
References91
5 Other Nanomaterials for Nanozymes101
Abstract101
5.1 Prussian Blue101
5.2 Metal-Organic Frameworks103
5.3 Metal Chalcogenides105
5.4 Metal Hydroxides105
5.5 Miscellaneous106
References106
6 Challenges and Perspectives111
Abstract111
References113
Appendix116
References128