Ion Transport in Asymmetric Artificial Membranes Mediated by Neutral Carriers.- Neutral Carriers for Anions.- Effects of Lipophilic Charged Sites on the Electromotive Behavior of Liquid Membrane Electrodes.- Transients in Ion-Sensitive Field Effect Transistors.- The Response Mechanism of Copper Ion-Selective Electrodes in the Presence of Halides and Organic Ligands.- Structure of the Double Layer and Rates of Ion Crossings at Single Immiscible Liquid/Liquid Interfaces: Relation to the Mechanism of Liquid Ion-Selective Electrodes.- Lifetime of Neutral Carrier-Based Membranes in Aqueous Systems and Blood Serum.- Serotonin, Dopamine, and Related Molecules are Transported Selectively by Noncyclic Neutral Li+-Selective Ionophores: Implications for Electrodes and for Neurobiological Studies.- Recent Studies on the Energy Profiles Underlying Permeation and Ion-Selectivity of the Gramicidin and Acetylcholine Receptor Channels.- Surface and Volume Resitivity of Pyrex Glass Used for Liquid Membrane Ion-Sensitive Microelectrodes.- A New pO2-Potential Electrode.- A New Potential Electrode for Glucose Measurements.- Ion-Sensitive Plunge Wire Electrodes for Intramyocardial pH and K+ Determinations.- Computer-Assisted Processing of Ion-Selective Electrode Measurements.- Intracellular pH Measurements In Vivo with a Newly Designed Double-Barrelled Microelectrode and its Application During Skeletal Muscle Ischemia in Rabbits.- Continuous Potentiometric Measurement of Different Ion Concentrations in Whole Blood of the Extracorporeal Circulation.- Monitoring Ca2+, pH, and PCO2 in Circulating Arterial Blood by Means of Ion-Selective Electrodes in a Flow Cell.- Plastic H+-Sensitive Membranes for In Vivo pH Measurements.- The Applicability of Fluorescence Indicators to Measure Hydrogen Ion Activities by Optimizing Accuracy and Minimizing the Influence of Ionic Strength.- Measurements of the Elemental Distribution in Cells and Tissues by X-Ray Microanalysis.- A Method for Determination ol“~