Electrochemistry. 1. For example, the reduction of cerium(iv) by iron(ii): Ce 4+ + Fe 2+ Ce 3+ + Fe 3+ a. The reduction half-reaction is given by...
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1 Review: Electrochemistry Reduction: the gaining of electrons Oxidation: the loss of electrons Reducing agent (reductant): species that donates electrons to reduce another reagent. Oxidizing agent (oxidant): species that accepts electrons to oxidize another species. Oxidation-reduction reaction (redox reaction): a reaction in which electrons are transferred from one reactant to another. 1. For example, the reduction of cerium(iv) by iron(ii): Ce 4+ + Fe 2+ Ce 3+ + Fe 3+ a. The reduction half-reaction is given by... Ce 4+ + e - Ce 3+ b. The oxidation half-reaction is given by... Fe 2+ e - + Fe 3+ Rules for Balancing Oxidation-Reduction Reactions A. Write out half-reaction.
2 B. Balance the half-reactions by adding H +, OH - or H 2 O as needed, maintaining electrical neutrality. C. Combine the two half-reactions such that the number of electrons transferred in each cancels out when combined. D. For example, consider the following reaction of the peroxydisulfate ion with manganese ion: S 2 O Mn 2+ SO MnO 4-1. The reduction step is... S 2 O e + 2 SO 4 2- (Each sulfur atoms goes from +7 to +6 oxidation state.) 2. The oxidation step is... Mn H 2 O 5 e - + MnO H + (Manganese(II) loses 5 electrons, going from +2 to +7.) 3. In combining the two equations, the oxidation step must be multiplied by "2," and the reduction step must be multiplied by "5" to cancel out the electrons:
3 2x [Mn H 2 O 5 e - + MnO H 1+ ] 5x [S 2 O e + 2 SO 4 2- ] Adding these two equations together... 5 S 2 O Mn H 2 O 10 SO MnO H + 6. Note that the half-reactions are charge-balanced before adding them together. Oxidation-Reduction Reactions in Electrochemical Cells A. It is possible to separate the half-reactions of an oxidationreduction reaction in an electrochemical cell. B. Consider the following reaction:
4 2 Ag + + Cu (s) 2 Ag (s) + Cu The reduction half-reaction is given by... Ag + + e - Ag (s) 2. The oxidation half-reaction is given by... Cu (s) 2 e - + Cu 2+ C. These reactions can be "separated" in a galvanic cell (also called a voltaic cell or battery): Schematic Representation of Cells A. The copper(ii) sulfate/silver nitrate systems described above would be symbolized... Cu CuSO 4 (0.02 M) AgNO 3 (0.02 M) Ag
5 1. Each vertical line (" ") represents a phase boundary or interface where a potential develops. 2. Each double vertical line (" ") represents two phase boundaries (e.g., the salt bridge). 3. The direction of electron flow is from left to right: Cu--- >Ag. B. The equilibrium expression for this galvanic cell would be... 2 Ag + + Cu (s) 2 Ag (s) + Cu 2+ a. If the battery, initially with M copper ion and M silver ion, is allowed to react to equilibrium, the final concentrations of these ions at equilibrium is determined experimentally to be M copper ion and 2.7 x 10-9 M silver ion. Note that the calculation above requires that the cell voltage be zero (i.e., at equilibrium) and that the concentrations be determined by analysis. Electric charge/electromotive force -Electric charge (q) measured in coulombs (C) - Magnitude of charge of a single electron is x C - Mole of electrons has a charge of: (1.602 x C) x (6.022 x mol -1 ) = x 10 4 C q = n F
6 where n = # moles, F = Faraday constant Relate (C) to Quantity of Reactions Ex. If g of Fe 3+ were reduced in the reaction below, how many coulombs of charge must have been transferred from V 2 + to Fe 3+? Fe 3+ + V 2+ Fe 2+ + V mol e - (9.649 x 10 4 C mol e - ) = x 103 C Work, Voltage and Free Energy Ex. Electrical Work, p. 285 Work (J) = E (V) q E = diff in electrical potential (potential difference) Free Energy, G Chapter 6 Review******* G = -nfe (Relation between free energy difference and potential difference) Ohm s Law spontaneous reaction: G <0 and E >0 nonspontaneous reaction: G >0 and E <0 I = E R
7 where I = current, R = resistance ( ) Power (W) P = work s = E x q s = E x q s P = E I Fig Electric current diagram I = E R = 3.0 V = 0.030A = 30mA 100Ω P = E I = (3.0V)(0.030 A) = 90mW Electrochemical Cell revisited Interpreting Electrode Potentials - always write half-reactions as reductions (IUPAC) aa + bb + ne - cc + dd E = E o log [C]c [D] d n [A] a [B] b Ex. Calculate the electrode potential of a half-cell containing M KMnO 4 and M MnCl 2 solution whose ph is E o MnO4/Mn2+ = 1.51 MnO H e- Mn H 2 O o E = E MnO 4 / Mn n [Mn 2+ ] log [MnO 4 ][H + ] 8 At ph = 1.000, [H 3 O+] = 1.00 x 10-1 M
8 E = log (0.100)(1.00x10 1 ) = 1.42 V 8 * Advice for Finding Relevant Half-Reactions, 14-4, p as the tendency for a half-reaction to proceed in the direction of reduction increases, the electrode potential of the half-cell also increases determine which substance is better oxidizing agent: Cu e - Cu (s) Zn e - Zn (s) E o =0.521 V E o = V Calculating cell voltage E cell = E cathode - E anode Ex. Calculate the voltage of the following cell: Zn (s) ZnCl 2 (0.120M) Cl 2 (g) (1.15 atm), KCl (0.105 M) Pt right hand cell: Cl 2 (g) + 2e- 2 Cl - o E 1.36V E = E o log [Cl ] 2 n p Cl 2 = log (0.105) = 1.42 V Cl 2 / Cl = Left-hand cell: Zn2+ + 2e- Zn (s) E o 2 + = Zn / Znl V = E o n 1 log [Zn 2+ ] = log = V
9 E cell = E cathode - E anode = 1.42 (-0.789) = 2.21 V Assumption -When electrode in cell is not known to be the cathode or right-hand electrode.can assume one electrode is cathode and cell voltage calculated accordingly. If correct- calculated voltage (+) and the reaction spontaneous If incorrect calculated voltage (-) and the spontaneous. Cell reaction will be opposite to the calculated reaction. Ex. Suppose zinc was the cathode in the cell described above, accordingly made the right-hand electrode: Pt KCl (0.105 M), Cl 2 (g)(1.15 atm) ZnCl 2 (0.120 M) Zn Calculate the voltage and spontaneous reaction of the cell: E zn = V, E Pt = 1.42 V Since zinc is the right-hand electrode: E cell = E cathode - E anode = = V Not spontaneous in the direction written, but rather in the reverse direction - To establish reaction direction: Need only to determine which half-cell has the more positive electrode potential
10 If both electrode potentials are the same, no net driving force (system equilibrium) Extent of Reaction The Equilibrium Constant A ox + B red A red + B ox The voltage of a galvanic cell that would yield this reaction is: E cell = E A E B At equilibrium, the cell voltage is zero and E A = E B log K eq = n(e o A E o B ) *Remember: n is the # of electrons for the two half-reactions and is the standard electrode potential for the substance being reduced. Ex. Calculate the equilibrium constant for the reaction: 2Fe 3+ + H 3 AsO 3 + H 2 O 2 Fe 3+ H 3 AsO H + Half-reactions 2 Fe e- 2 Fe 2+ E o = V o E A H 3 AsO 4 + 2H + + 2e- H 3 AsO 3 + H 2 O E o = V log K eq = n(e o A E o B ) log K eq = 2( ) = 7.16 K eq = = 1.4 x 10 7
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