Reflecting the dramatic rise in interest shown in this field over the last few years, this book collates the widespread knowledge into one handy volume. It covers in depth all classes of ionic liquids thus far in existence, with the individual chapters written by internationally recognized experts. The text is written to suit several levels of difficulty, containing information on basic physical chemistry in ionic liquids, a theory on the conductivity as well as plating protocols suited to undergraduate courses. The whole is rounded off with an appendix providing experimental procedures to enable readers to experiment with ionic liquids for themselves.
Frank Endres studied chemistry and physics at Saarland University, Germany, gaining his doctorate in 1996. He obtained his lecturing qualification at Karlsruhe University in 2002, since when he has been a professor at Clausthal University of Technology. Andrew Abbott gained his PhD in electrochemistry from Southampton University in 1989. Following post-doctoral studies at the universities of Connecticut and Liverpool, he became a lecturer at the University of Leicester in 1993, and Professor of Physical Chemistry there in 2005. Since 1999, Professor Abbott has been Research Director of Scionix Ltd. Douglas MacFarlane studied physics and chemistry as well as history at Victoria University of Wellington, gaining his PhD in physical chemistry at Purdue University in 1983. He has been Professor of Chemistry at Monash University since 1995.
PREFACE BASIC CONSIDERATIONS OF DEPOSITION IN IONIC LIQUIDS SYNTHESIS OF IONIC LIQUIDS AlCl3 Based First Generation Ionic Liquids Air and Water Stable Ionic Liquids Deep Eutectic Solvents PHYSICOCHEMICAL PROPERTIES OF IONIC LIQUIDS ELECTRODEPOSITION OF METALS Metal Deposition in AlCl3 Based Ionic Liquids Metal Deposition in Air and Water Stable Ionic Liquids Metal Deposition in Deep Eutectic Solvents Troublesome Aspects ELECTRODEPOSITION OF ALLOYS ELECTRODEPOSITION OF SEMICONDUCTORS ELECTRODEPOSITION OF CONDUCTING POLYMERS ELECTRODEPOSITION OF NANOCRYSTALLINE METALS AND ALLOYS ELECTRODEPOSITION ON THE NANOSCALE PLASMA ELECTROCHEMISTRY TECHNICAL ASPECTS Counter Electrode Reactions / Metal Dissolution Reference Electrodes Upscaling Recycling Impurities SURFACE PRETREATMENT / ELECTROPOLISHING PLATING PROTOCOLS FUTURE DIRECTIONS