![Loading...](https://link.springer.com/static/c4a417b97a76cc2980e3c25e2271af3129e08bbe/images/pdf-preview/spacer.gif)
-
Chapter and Conference Paper
Mechanical, chemical, and electrical constraints and hydrodynamic interfacial instability
-
Article
Kinetic properties of electrostatic pores with orientable dipoles, for Na+ and K+ transport through biological membranes
The model, used previously to account for the transport of K+ ions through squid axon membranes under steady-state conditions, is extended to the description of the kinetic behavior of Na+ and K+ currents, for su...
-
Article
The role of proteins in a dipole model for steady-state ionic transport through biological membranes
The steady-state current-voltage characteristics of biological membranes are analyzed by means of an application of the electrodiffusion theory to the passage of ions through “dielectric pores”, with orientabl...
-
Article
Surface dipoles, surface charges and negative steady-state resistance in biological membranes
A theoretical expression for the steady-state current-voltage characteristic of biological membranes is given, justifying various assumptions which are usually made in the framework of the electrodiffusion the...