Liu / Jin | Two-Dimensional-Materials-Based Membranes | Buch | 978-3-527-34848-0 | sack.de

Buch, Englisch, 400 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 907 g

Liu / Jin

Two-Dimensional-Materials-Based Membranes

Preparation, Characterization, and Applications
1. Auflage 2022
ISBN: 978-3-527-34848-0
Verlag: WILEY-VCH

Preparation, Characterization, and Applications

Buch, Englisch, 400 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 907 g

ISBN: 978-3-527-34848-0
Verlag: WILEY-VCH

Two-Dimensional-Materials-Based Membranes

An authoritative and up to date discussion of two-dimensional materials and membranes

In Two-Dimensional-Materials-Based Membranes: Preparation, Characterization, and Applications, a team of distinguished chemical engineers delivers a comprehensive exploration of the latest advances in design principles, synthesis approaches, and applications of two-dimensional (2D) materials—like graphene, metal-organic frameworks (MOFs), 2D layered double hydroxides, and MXene—and highlights the significance and development of these membranes. In the book, the authors discuss the use of membranes to achieve high-efficiency separation and to address the challenges posed in the field.

The book also discusses potential challenges and benefits in the future development of advanced 2D nanostructures, as well as their impending implementation in applications in the fields of energy, sustainability, catalysis, electronics, and biotechnology.

Readers will also find: - A thorough introduction to fabrication methods for 2D-materials-based membranes, including the synthesis of nanosheets, membrane structures, and fabrication methods
- Descriptions of three types of 2D-materials-based membranes: single-layer membranes, laminar membranes and mixed-matrix membranes
- Comprehensive discussions of 2D-materials-based membranes for water and ions separation, solvent-water separation and gas separation
- Explorations of transport mechanism of 2D-materials-based membranes for molecular separations

Perfect for membrane scientists, inorganic chemists, and materials scientists, Two-Dimensional-Materials-Based Membranes will also earn a place in the libraries of chemical and process engineers in industrial environments.

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Autoren/Hrsg.

Liu, Gongping
Jin, Wanqin

Fachgebiete

Weitere Infos & Material

Preface
 
INTRODUCTION
 
FABRICATION METHODS FOR 2D MEMBRANES
Introduction
Synthesis of Nanosheets
Membrane Structures and Fabrication Methods
Summary and Outlook
 
NANOPOROUS SINGLE-LAYER GRAPHENE MEMBRANES FOR GAS SEPARATION
Introduction
Gas Separation Potential of N-SLG Membranes
Engineering Gas-Selective Vacancy Defects
Fabrication of Large-Area N-SLG Membranes
Summary and Outlook
 
GRAPHENE-BASED MEMBRANES FOR WATER SEPARATION
Introduction
Water Transport Mechanisms in Graphene-Based Membranes
Graphene-Based Membrane Water Separation Applications
Conclusions and Perspectives
 
GRAPHENE-BASED MEMBRANES FOR IONS SEPARATION
Introduction
Single-Layer Graphene
Graphene Oxide Membranes
Summary and Perspective
 
GRAPHENE-BASED MEMBRANES FOR PERVAPORATION
Introduction
Mass Transport Mechanism
Progresses in GO Membranes for Pervaporation
Summary and Perspective
 
TWO-DIMENSIONAL-MATERIALS MEMBRANES FOR GAS SEPARATIONS
Introduction
2D Materials Membranes
Preparation of 2D Nanosheets
Preparation of 2D-Materials Membranes
Gas Separations
Conclusions and Perspectives
 
LAYERED DOUBLE HYDROXIDE MEMBRANES FOR VERSATILE SEPARATION APPLICATIONS
Introduction on LDHs & LDH-Based Membranes
Strategy for LDH-Based Membrane Preparation
Research Progress on LDH-Based Membranes
Summary and Outlook
 
MXENE: A NOVEL TWO-DIMENSIONAL MEMBRANE MATERIAL FOR MOLECULAR SEPARATION
Introduction
Synthesis and Processing
MXene-Based Membranes for Molecular Separation
Conclusions and Perspective
 
2D MATERIALS MIXED-MATRIX MEMBRANES
Introduction
Two-Dimensional Material as Dispersed Phase of MMMs
Two-Dimensional Material as Continues Phase of MMMs
Conclusion and Outlook
 
TRANSPORT MECHANISM OF 2D MEMBRANE
Introduction
Fundamentals of Mass Transport through Membranes
Nanofluidic Transport through Confined Dimensions
Unique Mass Transport Properties in 2D Membranes: Structural Aspects
Summary and Outlook
 
CONCLUSIONS AND PERSPECTIVES
 

 

 

Chapter 1. Introduction
Chapter 2. Fabrication methods for 2D membranes
Chapter 3. Porous graphene-based nanosheet membranes
Chapter 4. Graphene-based membranes for water separation
Chapter 5. Graphene-based membranes for ions separation
Chapter 6. Graphene-based membranes for pervaporation
Chapter 7. Graphene-based membranes for gas separation
Chapter 8. 2D MOF or zeolite membranes
Chapter 9. 2D layered double hydroxides membranes
Chapter 10. MXene and other 2D membranes
Chapter 11. 2D-materials mixed-matrix membranes
Chapter 12. Transport mechanism of 2D membranes
Chapter 13. Prospective

Gongping Liu is Professor in College of Chemical Engineering at Nanjing Tech University, China. He received his BS degree and PhD degree in chemical engineering in 2008 and 2013 at Nanjing Tech University under the supervision of Prof. Wanqin Jin and Prof. Nanping Xu. Following completion of his PhD, Dr. Liu joined Nanjing Tech University as a lecturer, and undertook a post-doctoral position in Bill Koros Group at Georgia Tech during 2015-2017. His research area is membrane science and technology, with focusing on design and fabrication of novel membranes with subnano-sized pores for molecular separation. He is the recipient of the North American Membrane Society (NAMS) Young Membrane Scientist Award in 2018.
Wanqin Jin is Professor of College of Chemical Engineering at Nanjing Tech University, Fellow of Royal Society of Chemistry, the Deputy-Director of the State Key Laboratory of Materials-Oriented Chemical Engineering and the Chief-scientist of the National Basic Research Program of China (973 Program) and Major Program of National Natural Science Foundation of China (NSFC). He received his Ph.D. from Nanjing University of Technology in 1999. He was a research associate at Institute of Materials Research &Engineering of Singapore (2001), an Alexander von Humboldt Research Fellow (2001-2003), visiting professors at Arizona State University (2007) and Hiroshima University (2011, JSPS invitation fellowship). His current research focuses on the development of membrane materials and processes.
 

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