Mixed-Valence Systems (eBook, PDF)

Fundamentals, Synthesis, Electron Transfer, and Applications
Redaktion: Zhong, Yu-Wu; Reimers, Jeffrey R.; Liu, Chun Yuan

• Format: PDF

Produktbeschreibung

Mixed-Valence Systems

Comprehensive overview on the advanced development of mixed-valence chemistry

Mixed-Valence Systems: Fundamentals, Synthesis, Electron Transfer, and Applications covers all topics related to the theory and experimental results of mixed-valence systems, including the design, synthesis, and applications of mixed-valence compounds containing inorganic, organometallic and organic redox-active centers. The text also covers the recent advances in mixed-valence chemistry, including the development of new mixed-valence systems, transition of mixed valency, better understanding of the spectral characteristics of intervalence charge transfer, and controllable electron transfer related to molecular electronics.

In Mixed-Valence Systems, readers can expect to find detailed information on sample topics such as:

• Characterization and evaluation of mixed-valence systems, electron paramagnetic resonance spectroscopy, and electrochemical methods
• Optical analysis, important issues in mixed-valence chemistry, transition of mixed valency from localized to delocalized, and solvent control of electron transfer
• Theoretical background, potential energy surfaces from classical two-state model, and quantum description of the potential energy surfaces
• Reorganization energies, electronic coupling matrix element and the transition moments, generalized Mulliken-Hush theory, and analysis of the band shape of intervalence charge transfer

Strengthening the relationship of mixed-valence electron transfer and molecular electronics, Mixed-Valence Systems is of immense value to researchers and professionals working in the field of electron transfer, molecular electronics, and optoelectronics.

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Produktdetails

• Verlag: Wiley-VCH
• Erscheinungstermin: 3. März 2023
• Englisch
• ISBN-13: 9783527835263
• Artikelnr.: 67631623

Autorenporträt

Yu-Wu Zhong is Professor at Institute of Chemistry, Chinese Academy of Sciences (ICCAS). He obtained his Ph.D. Degree in 2004 from Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences. After that, he worked as a postdoctoral associate at the University of Tokyo and Cornell University, respectively. In October 2009, he was awarded by the "100 talent" program of Chinese Academy of Sciences and joined ICCAS to start his independent career. He has authored over 160 scientific publications and received numerous scientific awards, including the National Science Fund for Distinguished Young Scholars of China in 2019 and the Chinese Chemical Society-Evonik Chemical Innovation Award for Distinguished Scientist (2019-2020). His research interests focus on the synthesis and applications of electro- and photo-functional molecular materials. Chun Yuan Liu received his M.S. degree in chemistry from Sun Yat-sen University in 1988 and Ph.D. degree from Texas A&M University in 2005 under the supervision of F. Albert Cotton. In his professional career, he chaired the chemistry department at Xiangtan Normal university (1992-1996) and at Jinan university (2011-2017) and worked as a researcher with Daryle H. Busch at the University of Kansas (1996-2000) and as a full professor at Tongji University (2006-2011). His research interests include coordination chemistry, metal-metal bonds, mixed-valency, electron transfer, molecular electronics and photocatalyst. Jeff Reimers studied organic spectroscopy under Ian Ross and Gad Fischer before doing a PhD with Bob Watts on the structure, thermodynamics, and spectroscopy of water and ice. He then studied semiclassical quantum mechanics in USA under Kent Wilson and Rick Heller, before returning to Australia to be an ARC Research Fellow from 1985 to 2010 at the University of Sydney. There he collaborated extensively with Noel Hush and Max Crossley on problems involving electron transfer, molecular electronics, porphyrin chemistry, self-assembly, electronic-structure theory, and photosynthesis. In 2014 he moved to a joint appointment at University of Technology Sydney and Shanghai University, focusing mostly on basic chemistry, nanophotonics, and molecular electronics. His work spans a wide range of chemical applications, from biochemical function to electronic devices to the origins of consciousness. He has received the RACI Physical Chemistry Division Medal and the H.G. Smith Medal, the David Craig Medal of the Australian Academy of Science, and the Shanghai Magnolia Medal; he is a Fellow of the RACI, the Royal Society of NSW, and the Australian Academy of Science.

Inhaltsangabe

1. Introduction and Fundamentals of Mixed-Valence Chemistry
2 The Conceptual Understanding of Mixed-Valence Compounds and Its Extension to General Stereoisomerism
3 Quantum-Chemical Approaches to Treat Mixed-Valence Systems Realistically for Delocalized and Localized Situations
4 Mixed Valency in Ligand Bridged Diruthenium Complexes
5 Electronic Communication in Mixed-Valence (MV) Ethynyl, Butadiyndiyl and Polyynediyl Complexes of Iron, Ruthenium and Other Late Transition Metals
6 Electron Transfer in Mixed-Valence Ferrocenyl-Functionalized 5- and 6-Membered Heterocycles
7 Electronic Coupling and Electron Transfer in Mixed-Valence Systems with Covalently-Bonded Dimetal Units
8 Mixed-Valence Electron Transfer of Cyanide-Bridged Multimetallic Systems
9 Organic Mixed-Valence Systems: Towards Fundamental Understanding of Charge/Spin Transfer Materials
10 Mixed-Valence Complexes in Biological and Bio-Mimic Systems
11 Control of Electron Coupling and Electron Transfer through Non-Covalent Interactions in Mixed-Valence Systems
12 Stimulus-Responsive Mixed-Valence and Related Donor-Acceptor Systems
13 Mixed Valency in Extended Materials
14 Near-Infrared Electrochromism Based on Intervalence Charge Transfer
15 Manipulate Metal-to-Metal Charge Transfer towards Switchable Functions