This book is based on the proceedings of the 1st International Conference on Nanopores for Bioanalytical Applications (Lanzarote, 2012).

Ionic Current Detection of DNA Origami Nanostructures with Nanocapillaries; On the Development of New Methods for Ion Channel Structure-Function Measurement; Improved Algorithms for Nanopore Signal Processing; A Variable Cross-Section Pore for Screening Cells for Specific Markers; Salt And Voltage Dependence of the Conductance Blockade Induced by Translocation of DNA And RECA Filaments Through Solid-State Nanopores; Biochemical Sensing with Chemically Modified Synthetic Ion Channels; Label-Free Screening of Niche-to-niche Variation in Satellite Stem Cells Using Functionalized Pores; Combining Fluorescence Imaging and Ionic Current Detection in Nanocapillaries; An Introduction to a New Ion Beam Nanopatterning Instrument and It's Application for Automatic Wafer Scale Nanopore Device Production; pH-Reversed Ionic Current Rectification Displayed by Conically Shaped Nanopore without any Modification; Modelling Solid-State Nanopores with a Combination of the Poisson-Nernst-Planck Equations and Brownian Dynamics; Biomimetic Nanopores with Amphoteric Amino Acid Groups. Effects of a pH Gradient on the Ionic Conductance and Selectivity; Forces on DNA in Confinement as Measured by Optical Tweezers; Potential Dependence of DNA Translocation; Towards Simultaneous Force and Resistive Pulse Sensing in Protein Nanopores Using Optical Tweezers; Stimuli-Triggered Permeation of Ionic Analytes Through Nanopores Functionalised with Responsive Molecules; Fabrication of Nanochannel Arrays for the Selective Transport of Ionic Species; Glycan Analysis Using a Solid State Nanopore; Transport Properties of Nano-Porous Track-Etched Membranes in Electrolyte Solutions; Single-Molecule DNA Translocation through Si3N4- and Graphene Solid-State Nanopores; Parallel, High-Resolution Nanopore Analysis on a Chip-based Lipid Membrane Micorarray; Subject Index