Part 1 Introduction and summary, Takao Tsuda. Part 2 Electrochromatography in analytical chemistry, Takao Tsuda and Shinya Kitagawa: theory band broadening; apparent mean linear flow velocity and elution time; processes in band broadening; electrochromatography zones; profiles of pressurized flow, electroosmotic flow and zones of ionic solutes; pressurized flow-driven electrochromatography on microcolumns. Part 3 Electroosmosis and electrochromatography, Takao Tsuda: electroosmosis; electroosmotically driven chromatography and electrochromatography. Part 4 Electrochromatography with radial applied voltage - ion separation by electrochemical approach, Tsuomu Nagaoka: experimental details; redox separation of electroactive metals on the conductive stationary phase; direct electrostatic interactions for potential-dependent separation of electroinactive species; indirect electrostatic interactions for potential-dependent separation of electroinactive species. Part 5 Electrochromatography in biomolecular analysis, Daniel H. Shain: significance; characteristics of biomolecules; development of electrochromatographic techniques; gel electrophoresis; electrochromatography in preparative columns; electrochromatography in microcolumns. Part 6 Electrochromatography for focusing, counter-current, mass spectrometry and two-dimensional separation, Takao Tsuda: continuous in-column sample focusing; rotation locular counter-current electrochromatography; electrochromatography - mass spectrometry; two-dimensional preparative chromatography with continuous injection. Part 7 Electroosmotic dewatering, Masashi Iwata: electroosmotic flow through a capillary; electroosmosis in porous media; electroosmotic dewatering of compressible solid-liquid mixtures; industrial applications. Part 8 Electrophoretic forming of ceramics, Takao Tsuda and Hideki Ishida: electrophoretic behaviour of inorganic particles in aqueous solution; selection of organic solvents for electrodeposition of inorganic particles dispersed in organic solution; electrophoretic and electroosmotic forming; control of particle diameter for high productivity and a low water content in electrical forming; zeta-potential of raw materials; electrodes; electrophoretic forming continuous ceramic sheet. Part 9 Control of viscosity by electric fields - novel materials for electrorheological fluids and their applications, Yuichi Ishino et al: fundamental characteristics of ERF; development of the dispersed phase; porous silica microspheres; carbon particulate phases; applications. Part 10 Application of electric fields to solvent extraction, Manabu Yamaguchi: theory; electrostatic liquid-liquid extraction. Part 11 Applications of the electric fields to the resolution of water-in-oil emulsions, Manabu Yamaguchi: fundamental relationships; electrostatic resolution of emulsion in the oil industry; electrostatic phase separation of rich water-in-oil emulsions in liquid membrane (Part contents)
