: Yun-Pei Zhu, Zhong-Yong Yuan
: Mesoporous Organic-Inorganic Non-Siliceous Hybrid Materials Basic Principles and Promising Multifunctionality
: Springer-Verlag
: 9783662456347
: 1
: CHF 49.80
:
: Anorganische Chemie
: English
: 127
: Wasserzeichen/DRM
: PC/MAC/eReader/Tablet
: PDF

This book provides extensive information on organic-inorganic hybrid materials with controllable compositions and structures developed over the past few decades, including metal sulfonates, carboxylates, phosphonates, metal-organic frameworks (MOFs), etc. A variety of judicious strategies for optimizing mesoporosity are also introduced, aiming at realizing the corresponding superiorities of hybrid frameworks in practical applications at the nano-/meso-scale. The morphological design and modification methods are also described in detail, which extend the potential application range of hybrid materials from traditional areas to high-tech fields.
The book offers an ideal reference work for readers in the fields of chemistry, chemical engineering, physics, materials and biology, especially those who are interested in porous hybrid materials.

Zhong-Yon Yuan is a Chair Professor at the College of Chemistry, Nankai University, China.



Yun-Pei Zhu received his BSc degree in 2011 at Henan Polytechnic University. He is currently a PhD candidate in Physical Chemistry under the supervision of Prof. Zhong-Yong Yuan at Nankai University. His current research relates to the rational design of porous organic-inorganic hybrid materials for applications in catalysis, adsorption/separation, biosensing and photoelectrochemistry.

Pro . Zhong-Yong Yuan received his BSc degree from Zhejiang Normal University in 1990, and obtained his MSc and PhD degrees from Nankai University in 1996 and 1999, respectively. After his postdoctoral research at the Institute of Physics, Chinese Academy of Sciences, he joined the Laboratory of Inorganic Materials Chemistry at the University of Namur, Belgium in 2001. In 2005, he was appointed as a Chair Professor at Nankai University. In 2006, he was awarded the 'Program for New Century Excellent Talents in University' by the Ministry of Education, China. His research interests are mainly focused on the self-assembly of hierarchically nanoporous and nanostructured materials for energy and environmental applications. He has co-authored more than 190 publications in prestigious journals and 3 book chapters, and holds 10 patents.
Preface6
Contents8
1 Introduction10
Abstract10
References13
2 History and Classification of Non-Siliceous Hybrid Materials16
Abstract16
2.1 Brief History of Hybrid Materials16
2.2 Classification of Non-Siliceous Hybrid Materials20
2.3 General Strategies of Incorporating Organic Groups25
2.3.1 Surface Functionalization25
2.3.2 Direct Synthesis27
References28
3 Strategies to Incorporate Mesoporosity33
Abstract33
3.1 Template-Free Self-assembly Synthesis Strategy34
3.1.1 Ligand Extension36
3.1.2 Microemulsion Method38
3.1.3 Nanocrystal Self-assembly39
3.2 Surfactant-Mediated Synthesis Strategy43
3.2.1 Synthesis Mechanism45
3.2.2 How to Effectively Obtain Periodic Mesoporosity46
3.2.3 Mesostructure Design54
3.2.4 Pore Size Control56
3.2.5 Improving the Crystallization of Pore Walls59
References63
4 Morphological Design of Mesoporous Hybrid Materials68
Abstract68
4.1 Spheres and Fibers68
4.2 Nanoplates and Films72
4.3 Nanorods74
4.4 Monoliths76
References79
5 Modification and Potential Applications of Organic–Inorganic Non-Siliceous Hybrid Materials81
Abstract81
5.1 Multiphase Adsorption and Separation82
5.1.1 Gas Adsorption82
5.1.2 Liquid Adsorption and Separation84
5.2 Energy Conversion and Storage88
5.2.1 Photocatalysis88
5.2.2 Photoelectrochemical Conversion92
5.2.3 Potential Fuel Cell Applications96
5.3 Heterogeneous Catalysis100
5.3.1 Pure Hybrid Framework100
5.3.2 Post-functionalization for Catalysis105
5.4 Biomaterials109
5.4.1 Biomolecule Adsorption and Separation109
5.4.2 Drug Delivery111
5.4.3 Biosensors113
References118
6 Summary and Outlook125
Abstract125