Preface. Obituary: Prof. Murray H. Brooker. Introductory Address. Potential for Use of Ionic Liquids in Czech Industry; J. Kotlan. Potential to Apply Ionic Liquids in Industry: Exemplified for the Use as Solvents in Industrial Applications of Homogeneous Catalysis; P. Wasserscheid. Ionic Liquids as Catalysts for Ethylbenzene Production; M.P. Atkins, C. Bowlas, B. Ellis, F. Hubert, A. Rubatto, P. Wasserscheid. Applications of Ionic Liquids to Biphasic Catalysis; H. Olivier-Bourbigou, F. Hugues. High-Temperature NMR Studies of Ionic-Liquid Catalysts; O.B. Lapina, V.V. Terskikh, B.S. Bal'zhinimaev, K.M. Eriksen, R. Fehrmann. Ionic Liquids as Alternatives to Traditional Organic and Inorganic Solvents; R. Pagni. The Pros and Cons of Using Ionic Liquids in the Pharmaceutical Industry; R.M. Freer, A. Curzons. Room Temperature Ionic Liquids as Replacements for Traditional Organic Solvents and their Applications towards 'Green Chemistry' in Separation Processes; A.E. Visser, R.P. Swatloski, W.M. Reichert, H.D. Willauer, J.G. Huddleston, R.D. Rogers. Application of Room-Temperature Ionic Liquids to the Chemical Processing of Biomass-Derived Feedstocks; L. Moens, N. Khan. Room-Temperature Sulfur Chloride Ionic Liquids in Processes for the Isolation of Noble and Other Metals; V.I. Pekhnyo, S.V. Volkov, N.G. Alexandrova. Ionic Liquids for Oil Shale Treatment; M. Koel, K. Hollis, J. Rubin, T. Lombardo, B. Smith. Ionic Liquids in the Nuclear Industry: Solutions for the Nuclear Fuel Cycle; W.R. Pitner, A.E. Bradley, D.W. Rooney, D. Sanders, K.R. Seddon, R.C. Thied, J.E. Hatter. Non-Invasive Spectroscopic On-Line Methods to Monitor Industrial Processes: A Review; M.H. BrookerDAGGER, R.W. Berg. Ionic Liquids as Catalysts for Sulfuric Acid Production and Cleaning ofFlue Gases; R. Fehrmann, K.M. Eriksen, S.B. Rasmussen. Modelling the Liquid Behaviour of Ionic Liquids; E.A. Gontcharenko, P.F. Zil'berman, V.S. Znamenskii. The Challenges of Building a Molten Salt Database; J. Fuller, M. Gaune-Escard. The Past, Present and Future of Ionic Liquids as Battery Electrolytes; J. Wilkes. Radical-Ion Melts of Aluminium, Gallium and Sulfur Halides for Novel Power Sources; S.V. Volkov, Z.A. Fokina, O.G. Yanko. Electrochemistry of Niobium, Tantalum and Titanium in Low-Temperature Carbamide-Halide Melts; N. Tumanova, O. Boyko, N. Buryak, S. Kochetova. Electrochemistry of Niobium in Rubidium and Caesium Halide and Oxohalide Melts, and the Electrochemical Synthesis of Novel Niobium Compounds; V.V. Grinevitch, A.V. Arakcheeva, S.A. Kuznetsov. Photochemistry in Ionic Liquids; C.M. Gordon. Ionic Liquids Derived from Natural Products and Other Novel Chemistries: Synthesis and Chemistry of Ionic Liquids Composed of Functionalised Ions; J.H. Davis, Jr. Ionic Liquids and Supercritical CO2; L.A. Blanchard, Z. Gu, J.F. Brennecke, E.J. Beckman. Acids and Bases in Ionic Liquids; K.E. Johnson. Ionic Liquid Crystals as Universal Matrices (Solvents): Main Criteria for Ionic Mesogenicity; T.A. Mirnaya, S.V. Volkov. Ionic Liquids as Solvents for Organic Synthesis; A.R. Sethi, P. Smith, N. Srinivasan, T. Welton. East-West Collaboration within the NATO Science Programme: Opportunities and Project Management; S. Boghosian. Alkane and Cycloalkane Transformations in Superelectrophilic Liquids; I.S. Akhrem, A.V. Orlinkov, M.E. Vol'pin. The Dissolution of Kerogen in Ionic Liquids; Y. Patell, K.R. Seddon, L. Dutta, A. Fleet. Electrochemical Synthesis of Volatile Metal Complexes, as Precursors for Functional
