Chapter 15 Electrode Measurements “Chem 7” test in hospital lab. Na +, K +, Cl -, CO 2, glucose,...
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Transcript of Chapter 15 Electrode Measurements “Chem 7” test in hospital lab. Na +, K +, Cl -, CO 2, glucose,...
![Page 1: Chapter 15 Electrode Measurements “Chem 7” test in hospital lab. Na +, K +, Cl -, CO 2, glucose, urea, & creatinine ion-selective electrodes.](https://reader036.fdocuments.in/reader036/viewer/2022062308/56649eec5503460f94bfda71/html5/thumbnails/1.jpg)
Chapter 15
Electrode Measurements
“Chem 7” test in hospital lab.Na+, K+, Cl-, CO2, glucose, urea, & creatinine
ion-selective electrodes
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15-1 The Silver Indicator Electrode
Reference electrode: E is constantIndicator electrode: E varies
In general, use chemically inert elements Pt, Au,C as Indicator electrodes for electron transfer.
In contrast, Ag is in rxn. & conjunction with S.C.E.
Ag+ + e- Ag(s) E0+ = 0.799 V
Hg2Cl2(s) + 2e- 2Hg(l) + 2Cl- E- = 0.241 V
][Ag log 0592.0558.0241.0][Ag
1log 0592.00.799EEE
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Ag+ + I- AgI (s)
(1) Before Ve Ksp = [Ag+][I-] [Ag+] = Ksp / [I-]
(2) At Ve
Ksp = [Ag+][I-] [Ag+] = [I-] = √Ksp
(3) After Ve
[Ag+] = mole of excess Ag+ / Vsoln
17sp 108.3
1
K
1K
][Ag log 0592.0558.0E
Titration of a halide ion with Ag+
Example at p.337
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Use for titration of a mixture at p.140
Fig. 6-4 Fig. 6-5Ag+ + I- AgI(s) Ksp = 8.3x10-17
Ag+ + Cl- AgCl(s) Ksp = 1.8x10-10
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15-2 What is a Junction Potential?The junction potential: (small: ~ mV) caused by unequal mobilities of Na+ and Cl-, exists at each end of a salt bridge.
Eobserved = Ecell + E junction
E junction is usually unknown inherent inaccuracy
ionic mobilities in Table 15-2junction potentials in Table 15-3
similar mobilities: K+ & Cl- junction E
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Direct versus relative potentiometric measurements
Direct potentiometric measurement:inherent inaccuracyliq-liq junction: ex. S = 4% among 14measurements by direct potentiometry
(1) different indicator electrodes (2) varying liquid junction potentials
Relative potentiometric measurement: by titrationare relatively precisepermit an end point to be identified with little uncertainty.
1.22 0.05
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15-3 How Ion-Selective Electrodes Work
The electric potential difference across in ion-selective membrane is measured by two reference electrodes, which might be AglAgCl. If the [C+] in the unknown solution changes, the voltage changes.
Almost all the analyte ion inside the membrane in Figure 15-6b is bound in the complex LC+, which is in equilibrium with a small amount of free C+.
P.342
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Two classes of indicator electrodes(1) Metal electrodes: redox reaction take place on surface
(Chapter 14)
(2) Ion-selective electrodes: selectively binds one ion-no redox chemistry: pH meter etc., (Chapter 15).
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15-4 pH Measurement with a Glass Electrode
The most widely employed ion-selective electrode
[C+] = [H+]
= 0.98~1 asymmetry
potential
Calibrating electrode for
pH(0.0592) constantE
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• Structure of glass: network of SiO4
• Glass surface contains –O-