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This book is indexed in
Materials Science » Fluids
Ionic Liquids: Theory, Properties, New Approaches
Edited by Alexander Kokorin, ISBN 978-953-307-349-1, Hard cover, 738 pages, Publisher: InTech, Chapters published February 28, 2011 under CC BY-NC-SA 3.0 license
DOI: 10.5772/603 
Ionic Liquids (ILs) are one of the most interesting and rapidly developing areas of modern physical chemistry, technologies and engineering. This book, consisting of 29 chapters gathered in 4 sections, reviews in detail and compiles information about some important physical-chemical properties of ILs and new practical approaches. This is the first book of a series of forthcoming publications on this field by this publisher. The first volume covers some aspects of synthesis, isolation, production, modification, the analysis methods and modeling to reveal the structures and properties of some room temperature ILs, as well as their new possible applications. The book will be of help to chemists, physicists, biologists, technologists and other experts in a variety of disciplines, both academic and industrial, as well as to students and PhD students. It may help to promote the progress in ILs development also.
- Chapter 1
Thermodynamic Properties of Ionic Liquids - Measurements and Predictions - - Chapter 2 Thermal Properties of Ionic Liquids and Ionanofluids
- Chapter 3 Physico-Chemical Properties of Task-Specific Ionic Liquids
- Chapter 4 Physicochemical Properties of Ionic Liquids Containing N-alkylamine-Silver(I) Complex Cations or Protic N-alkylaminium Cations
- Chapter 5 Physical Properties of Binary Mixtures of ILs with Water and Ethanol. A Review.
- Chapter 6 Photochromism in Ionic Liquids. Theory and Applications
- Chapter 7 Dynamic Heterogeneity in Room-Temperature Ionic Liquids
- Chapter 8 Peculiarities of Intramolecular Motions in Ionic Liquids
- Chapter 9 Atom Substitution Effects in Ionic Liquids: A Microscopic View by Femtosecond Raman-Induced Kerr Effect Spectroscopy
- Chapter 10 Interactions between Organic Compounds and Ionic Liquids. Selectivity and Capacity Characteristics of Ionic Liquids
- Chapter 11 Nonaqueous Microemulsions Containing Ionic Liquids – Properties and Applications
- Chapter 12 H/D Effects of Water in Room Temperature Ionic Liquids
- Chapter 13 Using Molecular Modelling Tools to Understand the Thermodynamic Behaviour of Ionic Liquids
- Chapter 14 Self-Consistent Mean-Field Theory for Room-Temperature Ionic Liquids
- Chapter 15 Pseudolattice Theory of Ionic Liquids
- Chapter 16 Ionic Liquids as Designer Solvents for the Synthesis of Metal Nanoparticles
- Chapter 17 Evaluation of Mobility, Diffusion Coefficient and Density of Charge Carriers in Ionic Liquids and Novel Electrolytes Based on a New Model for Dielectric Response
- Chapter 18 Aggregates in Ionic Liquids and Applications Thereof
- Chapter 19 Supramolecular Structures in the Presence of Ionic Liquids
- Chapter 20 Formation of Complexes in RTIL and Ion Separations
- Chapter 21 The Design of Nanoscale Inorganic Materials with Controlled Size and Morphology by Ionic Liquids
- Chapter 22 Synthesis of Novel Nanoparticle - Nanocarbon Conjugates Using Plasma in Ionic Liquid
- Chapter 23 Nanoparticle Preparation in Room-Temperature Ionic Liquid under Vacuum Condition
- Chapter 24 Perspectives of Ionic Liquids Applications for Clean Oilfield Technologies
- Chapter 25 Ionic Liquid Based Electrolytes for Dye-Sensitized Solar Cells
- Chapter 26 Quaternary Ammonium and Phosphonium Ionic Liquids in Chemical and Environmental Engineering
- Chapter 27 Ionic Liquids within Microfluidic Devices
- Chapter 28 Ionic Liquids: Methods of Degradation and Recovery
- Chapter 29 Progress in Paramagnetic Ionic Liquids