In this article, the electrical characterization of Voltage Operated ionic Channels (VOCs) in Nano-Bio-Electronics applications is carried out. This is one of the relevant steps towards a multi-physics description of hybrid bio-electronical devices such as bio-chips. Electrochemical ionic transport phenomena are properly modeled by a Poisson-Nernst-Planck partial differential system of nonlinearly coupled equations, while suitable functional iteration techniques for problem decoupling and finite element methods for discretization are proposed and discussed.
Electrochemical modeling and characterization of voltage operated channels in nano-bio-electronics
Chini Bice;
2008
Abstract
In this article, the electrical characterization of Voltage Operated ionic Channels (VOCs) in Nano-Bio-Electronics applications is carried out. This is one of the relevant steps towards a multi-physics description of hybrid bio-electronical devices such as bio-chips. Electrochemical ionic transport phenomena are properly modeled by a Poisson-Nernst-Planck partial differential system of nonlinearly coupled equations, while suitable functional iteration techniques for problem decoupling and finite element methods for discretization are proposed and discussed.File in questo prodotto:
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