Redox electrode

From Wikipedia, the free encyclopedia

A redox electrode is an electrode made from electron-conductive material and characterized by high chemical stability in the solution under test. It is used for measuring the redox potential of a specific redox system in solution, and for electrochemical studies (investigation of electrochemical kinetics of interfacial processes).

The correlation of an electrode potential and redox system composition can be described by the Nernst equation:

Ox + ne^- = Red

$E=E^0 + {RT \over nF}*\ln \left ({a_{\mathrm{ox}} \over a_\mathrm{red}}\right )$ ,

where

E⁰ - standard potential of a specific redox system,

R - gas constant,

T - temperature in kelvins,

n - number of electrons taking part in a specific redox reaction,

F - Faraday constant

a_ox, a_red - activity of oxidising and reducing participants in redox reaction.

There are two general classes of redox electrodes:

metals (the most common are platinum and gold, but for special purposes other materials such as titanium or iridium can be used)
semiconductors (the most common are graphite, diamond, and SnO₂)

[edit] Illustration

A gold disk redox electrode with a Teflon shroud insulating the disk.

Views

Interaction

Search

This page was last modified 21:42, 13 May 2007 by Wikipedia user A. Carty. Based on work by Wikipedia user(s) Addled mind, Ahw001, Mion, Melchoir, LutzL, Delldot, Gene Nygaard, Bluebot, Cafe Nervosa, Heron and Kaverin.
All text is available under the terms of the GNU Free Documentation License. (See Copyrights for details.)
Wikipedia® is a registered trademark of the Wikimedia Foundation, Inc., a U.S. registered 501(c)(3) tax-deductible nonprofit charity.
About Wikipedia
Disclaimers