Electrode
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An electrode is an electrical conductor used to make contact with a nonmetallic part of a circuit, like an electrolyte, semiconductor, vacuum, air or some other gas. Electrodes are often made of metal, but conductive non-metallic materials are also used.
Contents
General
An electrode in an electrochemical cell is referred to as either an anode or a cathode. The anode is now defined as the electrode at which electrons leave the cell and oxidation occurs (indicated by a minus symbol, "−"), and the cathode as the electrode at which electrons enter the cell and reduction occurs (indicated by a plus symbol, "+"). Each electrode may become either the anode or the cathode depending on the direction of current through the cell. A bipolar electrode is an electrode that functions as the anode of one cell and the cathode of another cell.[1]
Metallic electrodes
Copper
Copper is used as cathode in copper deposition from solutions. It has poor resistance to oxidation, and has limited use. Copper however, shows good resistance to molten alkali, making it suitable for use in a Castner electrochemical cell.
Gold
Gold, being largely unreactive, is a good choice when doing electrochemistry, despite its high price. Unfortunately, it does not have good resistance in the presence of hypochlorites, as such it cannot be used safely in the production of chlorates and perchlorates. Gold has been known to form a gold-sodium alloy in contact with molten NaOH above 800 °C.[2]
Iridium
Iridium has slightly better chemical resistance than platinum, but due to its price and rarity it's rarely encountered. Iridium is used in car spark plugs, as it has resists oxidation at high temperatures. There is little data on the general performance of iridium electrodes.
Mercury
Mercury has been used in the past as cathode in the Castner-Kellner process, but today its use has been discontinued due to mercury's toxicity.
Platinum
Platinum shows excellent resistance to corrosion and can be used as electrodes in chlorate-alkali cells. Unfortunately it will get easily poisoned by sulfur oxides.
Pure platinum electrodes are rarely used as platinum is very expensive, instead platinum deposited on titanium electrodes are more common (and cheaper).
Silver
Metallic silver can be used in various electrochemical experiments, however it will quickly passivate in a chlorate cell.
Titanium
Titanium has good chemical resistance, and can be used in many electrochemical processes. Has relative poor performance in the presence of chloride ions.
Non-metallic electrodes
Glassy carbon
Glassy carbon shows good chemical resistance, will rapidly break down in oxidizing processes.
Graphite
Graphite electrodes are commonly used in the electrolysis of water. Graphite, like glassy carbon, cannot handle strong oxidizing processes, and is unsuitable for making oxochlorine salts.
Lead dioxide
Lead(IV) oxide is commonly used in lead batteries, as it can be easily regenerated. It can be used in the production of chlorates, and while it's not as good as platinum, it can be easily regenerated and it's much cheaper. Beta-PbO2 is more attractive for this purpose than the alpha form because it has relatively lower resistivity, good corrosion resistance even in low-pH medium, and a high overvoltage for the evolution of oxygen in sulfuric acid and nitric acid-based electrolytes.
Lead dioxide electrodes can be either deposited on metallic lead or graphite.
Manganese dioxide
Manganese dioxide electrodes, MnO2 deposited on titanium metal, can be used in chlorate or HHO cells. While it will break down after repeated uses, it can easily regenerated, by applying manganese(II) nitrate on the electrode and applying heat until it decomposes to MnO2. At low current intensities, Ti-MnO2 electrodes can last for weeks.
Other electrodes
Mixed metal oxide
Mixed metal oxide (MMO) electrodes have an oxide coating over an inert metal or graphite core. The oxides of a precious metal (Ru, Ir, Pt) are used for catalyzing an electrolysis reaction. Titanium oxides are used for inertness, electrode corrosion protection, and lower cost. The core metals used are titanium (most common), zirconium, niobium, or tantalum.
Availability
Electrodes can be bought from hardware and technical stores. Noble metal electrodes can be purchased online or from lab suppliers.
DIY electrode
A simple electrode can be made by connecting a piece of metal using a wired crocodile clip to a power source. To make a circuit, you will need to use another piece of conductive material to serve as either cathode or anode to complete the circuit.
For corrosion resistant anodes, you can make PbO2 or MnO2 deposited on graphite or titanium. NurdRage made a tutorial on Ti-MnO2 electrodes.
Projects
- Water electrolysis (hydrogen and oxygen generation)
- Make copper(II) hydroxide and oxide
- Make sodium and potassium hydroxide
- Make hypochlorites, chlorates, perchlorates
- Isolate reactive metals from their molten salt
- Make a battery
- Make ozone and nitrogen dioxide
See also
References
- ↑ https://en.wikipedia.org/wiki/Electrode
- ↑ http://moltensalt.org/references/static/downloads/pdf/ORNL-2048.pdf
Relevant Sciencemadness threads
- Electrode material that won't oxidize?
- More on PbO2 electrodes
- Lead Dioxide Electrodes
- Looking for MMO electrode suppliers
- Electrodes for potassium chlorate electrolysis
- Chlorates, sulfates and Pb electrode
- Tungsten electrodes
- palladium electrodes, sodium bromate
- Ebonex Electrode
- Electrodes?
- Is a Stainless Steel Electrode Safe for Disinfecting Water?
- Usefulness of Lead electrodes to perform electrolysis
- Carbon Electrode Source
- Fe3o4 electrode
- Is it possible to perform electrolytic organic reductions without using any toxic metals as electrodes?
- Rhodium electrode
- Does anyone know how to make Ozone generator???