The authors of this volume concentrate on the recent progress of novel polyoxometalate (POM) syntheses, as well as advances made in catalytic, electrochemical, and sensing systems. The state-of-the-art techniques such as flow system and gel-electrophoresis for the discovery of POMs are covered with a detailed discussion. Of particular importance, the application of POM-based materials in photo-sensing, heterogeneous catalysis, energy conservation and storage, and gas separation is reviewed. Over the past few years, POM chemistry has witnessed a remarkable progress with more than 1500 papers…mehr
The authors of this volume concentrate on the recent progress of novel polyoxometalate (POM) syntheses, as well as advances made in catalytic, electrochemical, and sensing systems. The state-of-the-art techniques such as flow system and gel-electrophoresis for the discovery of POMs are covered with a detailed discussion. Of particular importance, the application of POM-based materials in photo-sensing, heterogeneous catalysis, energy conservation and storage, and gas separation is reviewed.
Over the past few years, POM chemistry has witnessed a remarkable progress with more than 1500 papers published each year. Due to their intrinsic structural features, POMs are considered as versatile building blocks for the construction of sophisticated complex assemblies and advanced multi-functional materials. Various strategies, methods, and techniques have been adopted to develop POM-based materials with intriguing properties and excellent performance.
All the contributors to this volume are young, vibrant chemists in this research field and all the works are carefully collected from the authors' years of experience. This volume serves as an essential reference for every POM chemist and is of great interest to new researchers who wish to learn more about this area.
Prof. Dr. Yu-FeiSONG received his BS (1997) and PhD (2002) degree from Shanxi University. After postdoc research in Leiden University ( 2002-2004, The Netherlands, Supervisor: Prof. Dr. Jan Reedijk ), Max-Planck Institute of Bio-inorganic Chemistry ( 2004-2005, Germany, Supervisor: Prof. Dr. Karl Wieghardt ), and The University of Glasgow ( 2005-2008, UK, Supervisor: Prof. Dr. Leroy Cronin ), he joined Beijing University of Chemical Technology (BUCT) in Sep, 2008. He is currently holding a full professor position in the State Key Laboratory of Chemical Resource Engineering, BUCT. His research directions mainly focus on the polyoxometalate-based molecular assemblies and multifunctional materials. He has published over 120 research papers in SCI journals and received the following awards " New Century Excellent Talent of Ministry of Education" (2009); " National Science Foundation for Excellent Young Scholars of China " (2012); " ChangJiang Scholars Program-Young Scholars , Ministry of Education" (2015); and " National Science Foundation for Distinguished Young Scholars of China " (2016).
Inhaltsangabe
Building Block Libraries and Structural Considerations in the Self-assembly of Polyoxometalate and Polyoxothiometalate Systems.- Structure and Bonding in Molecular Vanadium Oxides: From Templates via Host-Guest Chemistry to Applications.- Polyoxometalate-Based Photo-Sensitive Functional Hybrid Materials.- Porous Ionic Crystals Based on Polyoxometalates.- Polyoxometalates Assemblies and Their Electrochemical Applications.- Gel-Electrophoretic Chromatography of Polyoxometalate Clusters in Aqueous Solution.- Alkoxido-Derivatised Lindqvistand Keggin-Type Polyoxometalates.
Building Block Libraries and Structural Considerations in the Self-assembly of Polyoxometalate and Polyoxothiometalate Systems.- Structure and Bonding in Molecular Vanadium Oxides: From Templates via Host-Guest Chemistry to Applications.- Polyoxometalate-Based Photo-Sensitive Functional Hybrid Materials.- Porous Ionic Crystals Based on Polyoxometalates.- Polyoxometalates Assemblies and Their Electrochemical Applications.- Gel-Electrophoretic Chromatography of Polyoxometalate Clusters in Aqueous Solution.- Alkoxido-Derivatised Lindqvistand Keggin-Type Polyoxometalates.
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