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Electro-Chemistry. Electrochemistry is the chemistry of reactions which involve electron transfer. In spontaneous reactions electrons are released with energy which can be used in electrochemical cells.
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Electrochemistry is the chemistry of reactions which involve electron transfer. In spontaneous reactions electrons are released with energy which can be used in electrochemical cells. In non-spontaneous reactions electrons have to be supplied with energy in order to produce chemicals that are wanted in electrolytic cells or electrolysis. In both electrochemical and electrolytic cells the terms anode and cathode have the following meanings: Anode: The electrode where oxidation is occurring Cathode: The electrode where reduction is occurring
This is the use of a oxidation-reduction reaction to produce an electric current (electricity) To do this you have to separate the two half equations from one another and provide a path for the electrons to flow Half-cell where occurs Half-cell where occurs reduction oxidation But there is a problem…….
e- e- Electrons should move through the wire from Fe2+ to MnO4-. But they wont e- e- Reducing agent Oxidizing agent Becomes negative as electrons arrive Becomes positive as electrons leave
This problem can be solved The solutions need to be linked so that ions can can also flow to keep the net charge in each beaker equal. This can be done by using a salt bridge Or a porous disk in a tube linking the two solutions.
This is called an electrochemical battery or a galvanic cell The electrons are forced to flow through a wire by separating the reducing agent from the oxidizing agent.
Oxidation occurs at the anode Reduction occurs at the cathode
Batteries Lead storage batteries are used in all automobiles. It uses lead metal, Pb as the reducing agent and lead (IV) oxide, PbO2 as the oxidizing agent Sulfuric acid, H2SO4 provides the H+ needed for the reaction. It also provides SO42- ions that react with the Pb2+ ions to form PbSO4(s) The PbSO4(s) coats the lead electrodes and will cause the battery to go flat. The battery can be recharged by forcing current in the opposite direction to reverse the cell reaction.
Lead Acid Battery (Car Battery): Anode: Pb (s) Pb 2+(aq) + 2e- Cathode: PbO2 (s) + 2e- + 4H+(aq) Pb 2+(aq) +2H2O (l) The overall equation is PbO2 (s) + Pb (s) + 2H2SO4(aq) Pb SO4(aq) + 2H2O (l)
You can reverse the redox reaction to recharge the car battery. Your car uses an alternator which generates electricity which is used to recharge the battery You can do this by passing an electric current back into the battery. This turns the Pb 2+ back into PbO2 (s) + Pb Pb SO4(s) + 2H2O (l) PbO2 (s) + Pb (s) + 2H2SO4(aq)
Dry Cell Batteries These are small efficient batteries used in calculators, electronic watches, portable radios and tape players. They are called dry cells because they don’t contain a liquid electrolyte.
The Common Dry Cell Battery Anode: Zn Zn2+ (aq) + 2e- Cathode: 2 NH4+ + 2MnO2 + 2e- Mn2O3 + NH3 + H2O
Alkaline dry cell battery H2O + 2MnO2 + 2e- Mn2O3 + 2OH- Cathode: Zn + 2OH- ZnO (s) + H2O + 2e- Anode:
Mercury Battery This is an example of a dry battery. It is the battery found in calculators
This type of battery can’t be recharged. Anode: Zn (s) Zn 2+(aq) + 2e- Cathode: HgO (s) + 2e- + 2H+ Hg(aq) + H2O
Rusting 4Fe (s) + 3O2(g) 2Fe2O3 (s) Oxidation: Fe (s) Fe3+ + 3e- Reduction: O2(g) + 4e- 2O2-
Prevention of Rusting • How do you stop corrosion? • You need to prevent water and oxygen from coming into contact with metals that will oxidize by: • Coating metals in oil, paint, plastic or another metal • Cathodic protection • Or create alloys of iron that resist corrosion like stainless steel Corrosion destroys more than $7 billion worth of equipment in the USA each year. 20% of tha annual steel and iron production in the USA goes to replacing corroded materials
Cathodic Protection This is a way of protecting steel on ships, buried fuel tanks and pipelines A metal that is a better reducing agent than steel is attached to the steel
The magnesium is a stronger reducing agent than iron. So electrons flow from the magnesium into the iron, rather than from out of the iron. This stops the iron from being oxidized. As oxidation of the magnesium occurs, the magnesium dissolves and needs to be replaced periodically.
Electrolysis This is the process of forcing a current through a cell to produce a chemical change that would not otherwise occur. • Uses: • Recharging batteries • Electroylysis of water to produce O2 and H2(g) • Another important use of electrolysis is the production of metals. • Aluminum is an example of a metal produced by this process.
O2 (g) H2(g) Electrolysis of water: H2O(l) O2 (g) + H2(g)