Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… ·...
Transcript of Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… ·...
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147
Lecture #3 of 18
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148
Q: What’s in this set of lectures?
A: Introduction, Review, and B&F Chapter 1, 15 & 4 main concepts:
● Section 1.1: Redox reactions
● Chapter 15: Electrochemical instrumentation
● Section 1.2: Charging interfaces
● Section 1.3: Overview of electrochemical experiments
● Section 1.4: Mass transfer and Semi-empirical treatment of
electrochemical observations
● Chapter 4: Mass transfer
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149
Looking forward… our review of Chapter “0”
● Cool applications
● Redox half-reactions
● Balancing electrochemical equations
● History of electrochemistry
● IUPAC terminology and Ecell = Ered – Eox
● Nernst equation and Common reference electrodes
● Standard and Absolute potentials
● Latimer and Pourbaix diagrams
● Calculating Ecell under non-standard state conditions
● Conventions
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1,69 V
150
from Wiki
7+ 6+ 4+ 3+ 2+ 0
Oxidation Reduction
Two diagrams of empirical standard potentials…
A Latimer diagram is a summary of the E0 values for an element; it is useful for visualizing the complete redox series for an element and for determining when disproportionation will occur.
???
???
𝐸 = 𝐸𝑎𝑐𝑖𝑑0 − 1.65648 V = 0.60 V
𝐸𝑆𝐻𝐸0 = 2,25648 V
SWEET!
𝐸 = 𝐸𝑎𝑐𝑖𝑑0 −
0.05916 V
𝑛log
𝑀𝑛𝑂21 𝐻2𝑂
2
𝑀𝑛𝑂42− 1
𝐻+ 4= 𝐸𝑎𝑐𝑖𝑑
0 −0.05916 V
2log
1 1
1 1 10−14 4= 𝐸𝑎𝑐𝑖𝑑
0 − 0.02958 V 56
… but then why did the
CRC not list this? …
What would this E0
value be when at
acidic standard
state?
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151
A Pourbaix diagram is a map of the predominant equilibrium species of an aqueous electrochemical system; it is useful for identifying which materials/species are present/stable
from Wiki
Marcel Pourbaix
(1904–1998)http://corrosion-doctors.org/Biographies/PourbaixBio.htm
… Second one (not truly standard potentials)…
Pourbaix, Atlas of electrochemical equilibria in aqueous solutions, 1974
Chemist
… but then why did the
CRC not list this? …
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152
A Pourbaix diagram is a map of the predominant equilibrium species of an aqueous electrochemical system; it is useful for identifying which materials/species are present/stable
from Wiki
Marcel Pourbaix
(1904–1998)http://corrosion-doctors.org/Biographies/PourbaixBio.htm
… Second one (not truly standard potentials)…
Chemist
1,69 V
from Wiki
7+ 6+ 4+ 3+ 2+ 0
Oxidation
???
Pourbaix, Atlas of electrochemical equilibria in aqueous solutions, 1974
… but then why did the
CRC not list this? …
… because in acid, the reaction does
not occur!
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153
from Wiki
RHE
E(O2,H+/H2O)
Marcel Pourbaix
(1904–1998)http://corrosion-doctors.org/Biographies/PourbaixBio.htm
… Second one (not truly standard potentials)…
Anyway, … standard state is here, at ~1 M H+ (pH = 0) SHE… but if written under alkaline conditions, ~1 M OH– is standard state (pH 14)
Chemist
A Pourbaix diagram is a map of the predominant equilibrium species of an aqueous electrochemical system; it is useful for identifying which materials/species are present/stable
Pourbaix, Atlas of electrochemical equilibria in aqueous solutions, 1974
Why don’t I like this? … Even though EVERYONE plots it this way
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154
(1) What is the electrocatalyst for O2 evolution through water oxidation?(2) At what pH values is a solid electrocatalyst for H2 evolution stable?
Marcel Pourbaix
(1904–1998)http://corrosion-doctors.org/Biographies/PourbaixBio.htm
… Second one (not truly standard potentials)…
Chemist
A Pourbaix diagram is a map of the predominant equilibrium species of an aqueous electrochemical system; it is useful for identifying which materials/species are present/stable
Pourbaix, Atlas of electrochemical equilibria in aqueous solutions, 1974
from Wiki
RHE
E(O2,H+/H2O)
![Page 9: Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… · electrochemical observations Chapter 4: ... 7+ 6+ 4+ 3+ 2+ 0 ... A Pourbaix diagram is](https://reader035.fdocuments.us/reader035/viewer/2022062302/5aa2d1f77f8b9ada698d6718/html5/thumbnails/9.jpg)
155
(1) What is the electrocatalyst for O2 evolution through water oxidation? MnO2
(2) At what pH values is a solid electrocatalyst for H2 evolution stable?
Marcel Pourbaix
(1904–1998)http://corrosion-doctors.org/Biographies/PourbaixBio.htm
… Second one (not truly standard potentials)…
Chemist
A Pourbaix diagram is a map of the predominant equilibrium species of an aqueous electrochemical system; it is useful for identifying which materials/species are present/stable
Pourbaix, Atlas of electrochemical equilibria in aqueous solutions, 1974
from Wiki
RHE
E(O2,H+/H2O)
![Page 10: Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… · electrochemical observations Chapter 4: ... 7+ 6+ 4+ 3+ 2+ 0 ... A Pourbaix diagram is](https://reader035.fdocuments.us/reader035/viewer/2022062302/5aa2d1f77f8b9ada698d6718/html5/thumbnails/10.jpg)
156
(1) What is the electrocatalyst for O2 evolution through water oxidation? MnO2
(2) At what pH values is a solid electrocatalyst for H2 evolution stable? pH 7.5 – 13
Marcel Pourbaix
(1904–1998)http://corrosion-doctors.org/Biographies/PourbaixBio.htm
… Second one (not truly standard potentials)…
Chemist
A Pourbaix diagram is a map of the predominant equilibrium species of an aqueous electrochemical system; it is useful for identifying which materials/species are present/stable
Pourbaix, Atlas of electrochemical equilibria in aqueous solutions, 1974
from Wiki
RHE
E(O2,H+/H2O)
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How else could we write this? … 60 mV/2 log! (at room temp.)
𝐸 = 𝐸0 −𝑅𝑇
𝑛𝐹ln𝑄Nernst Equation:
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158
{Facile
𝐸 = 𝐸0 −𝑅𝑇
𝑛𝐹ln𝑄Nernst Equation:
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159
{Facile
𝐸 = 𝐸0 −𝑅𝑇
𝑛𝐹ln𝑄Nernst Equation:
Recall
• Ecell does not require “n”
• ΔG does require “n” (-nFEcell)
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Pt(s)-Hg(l) Hg2Cl2(s)+ Cl–(aq)
160
Cu SCE
Cu2+(aq) Cu(s)
– –
Common Inert Electrodes: Platinum, Carbon, Gold
Common Reactive Electrodes: Copper, Zinc, Cadmium, Lead, Silver
high impedance to measure potential
NOT The Daniell Cell
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161Write and explain the line notation for the redox reaction
between Cu/Cu2+ and an SCE electrode, where Cu2+ is CuSO4
(0.1 M), and KCl (1 M) is present in all cells.
Cu SCE
– –
Eo(Cu2+/Cu) = +0.1 V vs. SCE
Pt(s)-Hg(l) Hg2Cl2(s)+ Cl–(aq)
Cu2+(aq) Cu(s)
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162Write and explain the line notation for the redox reaction
between Cu/Cu2+ and an SCE electrode, where Cu2+ is CuSO4
(0.1 M), and KCl (1 M) is present in all cells.
Cu SCE
– –
Eo(Cu2+/Cu) = +0.1 V vs. SCE
Pt(s) | Hg(l) | Hg2Cl2(s) | KCl(1M, aq) | KCl(1M, aq) | KCl(1M, aq), CuSO4 (0.1M, aq) | Cu(s)
Pt(s)-Hg(l) Hg2Cl2(s)+ Cl–(aq)
Cu2+(aq) Cu(s)
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163Write and explain the line notation for the redox reaction
between Cu/Cu2+ and an SCE electrode, where Cu2+ is CuSO4
(0.1 M), and KCl (1 M) is present in all cells.
Cu SCE
– –
Eo(Cu2+/Cu) = +0.1 V vs. SCE
Pt(s) | Hg(l) | Hg2Cl2(s) | KCl(1M, aq) | KCl(1M, aq) | KCl(1M, aq), CuSO4 (0.1M, aq) | Cu(s)
Pt(s) | Hg(l) | Hg2Cl2(s) | Cl–(1M, aq) | | Cu2+ (0.1M, aq) | Cu(s)
Pt(s)-Hg(l) Hg2Cl2(s)+ Cl–(aq)
Cu2+(aq) Cu(s)
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164
Cu SCE
– –
Eo(Cu2+/Cu) = +0.1 V vs. SCE
Pt(s) | Hg(l) | Hg2Cl2(s) | Cl–(1M, aq) | | Cu2+ (0.1M, aq) | Cu(s)
(a) What is Ecell in this case?
(b) What is Ecell if [KCl] = 0.1 M?
Pt(s)-Hg(l) Hg2Cl2(s)+ Cl–(aq)
Cu2+(aq) Cu(s)
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165(a) What is Ecell in this case?
(b) What is Ecell if [KCl] = 0.1 M?
Eo(Cu2+/Cu) = +0.1 V vs. SCE
𝐸cell = 𝐸𝑜 −𝑅𝑇
𝑛𝐹ln
𝑎𝐶𝑢𝑎𝐻𝑔2𝐶𝑙2𝑎𝐶𝑢2+𝑎𝐻𝑔𝑎𝐶𝑙−
2
Pt(s) | Hg(l) | Hg2Cl2(s) | Cl–(1M, aq) | | Cu2+ (0.1M, aq) | Cu(s)
(a)
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166(a) What is Ecell in this case?
(b) What is Ecell if [KCl] = 0.1 M?
Eo(Cu2+/Cu) = +0.1 V vs. SCE
𝐸cell = 𝐸𝑜 −𝑅𝑇
𝑛𝐹ln
𝑎𝐶𝑢𝑎𝐻𝑔2𝐶𝑙2𝑎𝐶𝑢2+𝑎𝐻𝑔𝑎𝐶𝑙−
2
Pt(s) | Hg(l) | Hg2Cl2(s) | Cl–(1M, aq) | | Cu2+ (0.1M, aq) | Cu(s)
(a)
𝐸cell ≈ 𝐸𝑜 −0.0592 V
𝑛log
1
𝐶𝑢2+ 𝐶𝑙− 2
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167(a) What is Ecell in this case?
(b) What is Ecell if [KCl] = 0.1 M?
Eo(Cu2+/Cu) = +0.1 V vs. SCE
𝐸cell = 𝐸𝑜 −𝑅𝑇
𝑛𝐹ln
𝑎𝐶𝑢𝑎𝐻𝑔2𝐶𝑙2𝑎𝐶𝑢2+𝑎𝐻𝑔𝑎𝐶𝑙−
2
Pt(s) | Hg(l) | Hg2Cl2(s) | Cl–(1M, aq) | | Cu2+ (0.1M, aq) | Cu(s)
(a)
𝐸cell ≈ 𝐸𝑜 −0.0592 V
𝑛log
1
𝐶𝑢2+ 𝐶𝑙− 2
𝐸cell = +0.1 V −0.0592 V
2log
1
0.1
𝐸cell = +0.1 V − 0.0296 V = +0.0704 V
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168(a) What is Ecell in this case?
(b) What is Ecell if [KCl] = 0.1 M?
Eo(Cu2+/Cu) = +0.1 V vs. SCE
𝐸cell = 𝐸𝑜 −𝑅𝑇
𝑛𝐹ln
𝑎𝐶𝑢𝑎𝐻𝑔2𝐶𝑙2𝑎𝐶𝑢2+𝑎𝐻𝑔𝑎𝐶𝑙−
2
Pt(s) | Hg(l) | Hg2Cl2(s) | Cl–(1M, aq) | | Cu2+ (0.1M, aq) | Cu(s)
(a)
𝐸cell ≈ 𝐸𝑜 −0.0592 V
𝑛log
1
𝐶𝑢2+ 𝐶𝑙− 2
𝐸cell = +0.1 V −0.0592 V
2log
1
0.1
𝐸cell = +0.1 V − 0.0296 V = +0.0704 V
𝐸cell = +0.1 V −0.0592 V
2log
1
(0.1)3
𝐸cell = +0.1 V − 0.0888 V = +0.0112 V
(b)
* Remember, there is no such thing as a half-cell reaction, unless you’re working with Trasatti
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169
Quick quiz: Do the following make sense?
The grams (or grammage) of my material was 0.1 g.
The liters (or literrage) of my beaker was 0.1 L.
The m/s (or m/s-age) of that baseball was 10 m/s…
In general, IUPAC will be our standard guide for this course…
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170
Quick quiz: Do the following make sense?
The grams (or grammage) of my material was 0.1 g.
The liters (or literrage) of my beaker was 0.1 L.
The m/s (or m/s-age) of that baseball was 10 m/s…
Then please don’t say:
“The voltage of my cell is 0.1 V.” Let’s call it a potential…
In general, IUPAC will be our standard guide for this course…
![Page 25: Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… · electrochemical observations Chapter 4: ... 7+ 6+ 4+ 3+ 2+ 0 ... A Pourbaix diagram is](https://reader035.fdocuments.us/reader035/viewer/2022062302/5aa2d1f77f8b9ada698d6718/html5/thumbnails/25.jpg)
171In general, IUPAC will be our standard guide for this course…
http://goldbook.iupac.org/V06635.html
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172In general, IUPAC will be our standard guide for this course…
Quick quiz: Do the following make sense?
The grams (or grammage) of my material was 0.1 g.
The liters (or literrage) of my beaker was 0.1 L.
The m/s (or m/s-age) of that baseball was 10 m/s…
Then please don’t say:
“The voltage of my cell is 0.1 V.” Let’s call it a potential…
Quick quiz: Do the following make sense?
The kinetic process was graphed as an M–s curve.
The kinetics were followed as the concentration versus s…
![Page 27: Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… · electrochemical observations Chapter 4: ... 7+ 6+ 4+ 3+ 2+ 0 ... A Pourbaix diagram is](https://reader035.fdocuments.us/reader035/viewer/2022062302/5aa2d1f77f8b9ada698d6718/html5/thumbnails/27.jpg)
173In general, IUPAC will be our standard guide for this course…
Quick quiz: Do the following make sense?
The grams (or grammage) of my material was 0.1 g.
The liters (or literrage) of my beaker was 0.1 L.
The m/s (or m/s-age) of that baseball was 10 m/s…
Then please don’t say:
“The voltage of my cell is 0.1 V.” Let’s call it a potential…
Quick quiz: Do the following make sense?
The kinetic process was graphed as an M–s curve.
The kinetics were followed as the concentration versus s…
Then please don’t say:
“The cell’s behavior is shown as the I–V curve.” Let’s call
it an I–E curve, or best yet, a J–E curve.
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174Electrochemistry:
conventions… oh, conventions!
http://upload.wikimedia.org/wikipedia/commons/thu
mb/c/cc/Map_of_USA_TX.svg/2000px-
Map_of_USA_TX.svg.png
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175Electrochemistry:
conventions… oh, conventions!
Handbook of Electrochemistry, Zoski (ed.), Elsevier, 2007
WE WILL USE THIS ONE
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176
And FINALLY… A review of Chapter “0”
● Cool applications
● Redox half-reactions
● Balancing electrochemical equations
● History of electrochemistry
● IUPAC terminology and Ecell = Ered – Eox
● Nernst equation and Common reference electrodes
● Standard and Absolute potentials
● Latimer and Pourbaix diagrams
● Calculating Ecell under non-standard state conditions
● Conventions
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177
Q: What’s in this set of lectures?
A: Introduction, Review, and B&F Chapter 1, 15 & 4 main concepts:
● Section 1.1: Redox reactions
● Chapter 15: Electrochemical instrumentation
● Section 1.2: Charging interfaces
● Section 1.3: Overview of electrochemical experiments
● Section 1.4: Mass transfer and Semi-empirical treatment of
electrochemical observations
● Chapter 4: Mass transfer
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178
Looking forward… Section 1.1 (and some of Chapter 15)
● 2-electrode versus 3-electrode measurements
● Reference electrodes
● Potentiostats
● Compliance voltage/current
● J–E and I–E curves
● Kinetic overpotential
● Faradaic reactions
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179Although we would like to measure electrochemical observables
(e.g. the current, voltage, etc.) associated with a single “working”
electrode (WE), we cannot.
We must always couple our working electrode to a second electrode in
order to make a measurement. These two electrodes comprise an
electrochemical “cell.”
Power
Supply
Red line resists current flow
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180These schematics introduce some terms that we must define:
electrometer – A device for measuring a potential difference (Ecell). An
ideal voltmeter has infinite input impedance (i.e. it
draws no current). (impedance is “complex resistance”)
ammeter – A device for measuring a current. An ideal ammeter
has zero input impedance (i.e. it imposes no potential
drop).
Power
Supply
Red line resists current flow
http://chemwiki.ucdavis.edu/Analytical_Chemistry/E
lectrochemistry/Electrochemistry_2%3A_Galvanic_c
ells_and_Electrodes
-0.76 V
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181Experiments:
95% of the measurements you will perform have a problem
Power
Supply
Red line resists current flow
Oftentimes, most of us wish
to control the potential of this
“working” electrode...
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182Experiments:
95% of the measurements you will perform have a problem
Power
Supply
Oftentimes, most of us wish
to control the potential of this
“working” electrode...
… while not affecting the
potential of the second
(reference) electrode that is
used to “complete the circuit.”
Red line resists current flow
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183
E, V vs. ???0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE
ΔEoc = 0.0 V = EWE – ERE
… for example, let’s say both electrodes are platinum…
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184
E, V vs. ???0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE
ΔEoc = 0.0 V = EWE – ERE
… and at “open circuit,” no potential bias is applied between them…
(disconnect the wire!)
and by the way, we don’t know this potential…
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185
E, V vs. ???0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE
ΔEoc = 0.0 V = EWE – ERE
… and at “open circuit,” no potential bias is applied between them…
(disconnect the wire!)
and by the way, we don’t know this potential…
… and it is not well-defined because we cannot answer the question:
What is the half-reaction that defines it?
𝐸 = 𝐸0 −𝑅𝑇
𝑛𝐹ln 𝑄Nernst Equation:
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186
E, V vs. ???0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE
ΔEapp = +0.8 V
… now, if we apply +0.8 V to the WE (reconnect the wire)…the potential of both electrodes likely changes, and not likely symmetrically…
ΔE = 0.8 V
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187
E, V vs. ???0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE
ΔEapp = +0.8 V
… even worse, we don’t now the potentials of either electrode…
ΔE = 0.8 V
… and we don’t know this potential!we don’t know this potential…
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188
E, V vs. ???0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE
ΔEapp = +1.2 V
… you get the picture!
ΔE = 1.2 V
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189
In principle, this problem can be solved by using
a second electrode that is an (ideal) reference
electrode… (ideally) non-polarizable:
E, V vs. RE0.5 1.0 1.5 2.0-0.5-1.0-1.5-2.0
J, A
1E-3
2E-3
3E-3
-3E-3
-2E-3
-1E-3
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190
ΔEoc ≠ 0.0 V (likely)
… so get rid of the Pt reference electrode, and substitute an SCE…
… which has a Pt wire in it…
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
RE = saturated calomel electrode (SCE)
WE
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191
ΔEoc ≠ 0.0 V (likely)
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
RE = saturated calomel electrode (SCE)
WE
… where we still don’t know this potential because we cannot answer:
What is the half-reaction that defines it?
… so get rid of the Pt reference electrode, and substitute an SCE…
… which has a Pt wire in it…
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192
ΔEoc ≠ 0.0 V (likely)
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
RE = saturated calomel electrode (SCE)
WE
… but, where we know this potential because we can answer:
What is the half-reaction that defines it?
Pt(s)-Hg(l) Hg2Cl2(s)+ Cl–(aq)
… so get rid of the Pt reference electrode, and substitute an SCE…
… which has a Pt wire in it…
𝐸 = 𝐸0 −𝑅𝑇
𝑛𝐹ln 𝑄Nernst Equation:
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193
ΔEoc ≠ 0.0 V (likely)
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
RE = saturated calomel electrode (SCE)
E0SCE = +0.241 V vs. SHE
WE
… so get rid of the Pt reference electrode, and substitute an SCE…
… which has a Pt wire in it…
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194
ΔEapp = 0.0 V (ammeter ≠ 0 A)
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE = saturated calomel electrode (SCE)
E0SCE = +0.241 V vs. SHE
Power
Supply
Current must flow!
… so get rid of the Pt reference electrode, and substitute an SCE…
… which has a Pt wire in it…
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195
ΔEapp = +0.4 V
… the SCE has a defined potential of +0.241 V vs. SHE…
… and it “does not” “move” (much, usually)…
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE = saturated calomel electrode (SCE)
+0.241 V +0.641 V
ΔE = 0.4 V
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196
ΔEapp = +0.4 V
… how did we calculate that?
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE = saturated calomel electrode (SCE)
+0.241 V +0.641 V
ΔE = 0.4 V
ΔE = EWE – ERE
EWE = +0.4 V + +0.241 V = +0.641 V
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197
ΔEapp = -0.7 V
… you get the picture!
E, V vs. SHE0 0.2 0.4 0.6 0.8 1.0-0.2-0.4-0.6-0.8-1.0
WE
RE = saturated calomel electrode (SCE)
+0.241 V-0.459 V
ΔE = -0.7 V
ΔE = EWE – ERE
EWE = -0.7 V + +0.241 V = -0.459 V
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198
http://www.gamry.com/Products/RefElec_SCE.htm
… here is what a commercial SCE looks like:
Some major companies that have excellent
additional information on their websites
AMETEK (PAR, Solartron), BASi, Bio-Logic,
CH Instruments, Gamry, Metrohm, Pine
Vycor frit
heat shrink tubing
plastic caps
copper wire
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199
1. It has a well-defined and invariant potential. That
is, no matter how much current we draw from this
electrode, its potential must not vary.
2. It has zero impedance. That is, it imposes no
resistive load on our cell.
3. It does not “contaminate” our solution. That is, it
is not a source of undesired ions in our
electrochemical cell.
Specifically, we need a reference electrode that has the
following attributes.
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200
Vycor frit
heat shrink tubing
4 – 6 mm (o.d.) glass
tubing shaped like
an “h”
white Epotec epoxy or
TorrSeal, heat gunned...
copper wire
platinum wire
plastic caps
… but no such thing exists.
The closest approximation: the saturated calomel electrode (SCE)
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201
mercury
calomel*
calomel* - a paste
containing liquid
mercury, Hg2Cl2 and
some sat’d aq. KCl
filling solution:
aqueous saturated KCl
Vycor frit
heat shrink tubing
4 – 6 mm (o.d.) glass
tubing shaped like
an “h”
copper wire
plastic caps
… but no such thing exists.
The closest approximation: the saturated calomel electrode (SCE)
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202
E0 = +0.241 V vs. SHE
the saturated calomel electrode (SCE)
the saturated mercurous sulfate electrode (MSE)
E0 = +0.236 V vs. SHE
the saturated sodium calomel electrode (SSCE)
E0 = +0.64 V vs. SHE
… but no such thing exists. (see Figure E.1 on the inside back cover of B&F)
The closest approximation: the saturated calomel electrode (SCE)
Hg2Cl2 + 2e– 2Cl– + 2Hg0
Hg2Cl2 + 2e– 2Cl– + 2Hg0
Hg2SO4 + 2e– SO4
2– + 2Hg0
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203
E0SHE = 0.0000 V vs. SHE
http://en.wikipedia.org/wiki/Standard_hydrogen_electrode
The scheme of the standard (or normal)
hydrogen electrode:
1) platinized platinum electrode (large area)
2) hydrogen blow (bubbling)
3) solution of aqueous acid with proton activity
equal to one (dimensionless)
4) means to prevent O2 interference (sealant)
5) reservoir through which the second half-
element of the electrochemical cell is
attached. This creates an ionically
conductive path to the working electrode of
interest (salt bridge).
… great. But what is an SHE (standard hydrogen electrode)?
2H+ + 2e– H2
* one rendition of an SHE
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204… another common RE is the aq. Ag/AgCl electrode (KCl sat’d)!
AgCl (white)
Ag (gray), from
photodecomposition
of AgCl
https://www.youtube.com/watch?v=8e0-AbwBDYM
Moody, Oke, & Thomas, Analyst, 1969, 94, 803
Pt (s) | Hg (l) | Hg2Cl2 (s) | Cl– (sat’d, aq) | AgCl (s) | Ag (s)
E0 = +0.197 V vs. SHE
But for those of you doing
photoelectrochemistry,
beware!
AgCl + e– Cl– + Ag0
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205… and three final “specialty” reference electrodes include…
E0 = +0.098 V vs. SHE
For aqueous alkaline electrolyte conditions
Mercury/Mercury Oxide (Hg/HgO, 20 wt% KOH)
E0 = +0.3 V vs. SCE (aq), which is
effectively +0.54 V vs. SHE
For non-aqueous (CH3CN) electrolyte solutions
Ag/AgNO3 (0.01 M) in CH3CN
* Used when you already have a cell with two halves of a
redox couple that will not change during your exp.
* Calibrate with Fc (ferrocene)
When a reference electrode cannot be used or is not wanted
“Quasireference” electrode as Pt wire and any redox couple
B&F 2.1.7
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206How would one test the accuracy of a reference electrode?
● Measure the potential of an internal standard versus this
reference electrode
(e.g. ferrocene in non-aqueous electrolyte)
● Measure the potential of this reference electrode versus several
other reference electrodes with a voltmeter
(e.g. Ag (s) | AgCl (s) | Cl– (sat’d) | AgCl (s) | Ag (s))
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207How would one test the accuracy of a reference electrode?
● Measure the potential of an internal standard versus this
reference electrode
(e.g. ferrocene in non-aqueous electrolyte)
● Measure the potential of this reference electrode versus several
other reference electrodes with a voltmeter
(e.g. Ag (s) | AgCl (s) | Cl– (sat’d) | AgCl (s) | Ag (s))
What if no matter what you do, the potential is unstable or the equipment
overloads (i.e. gives you an error; often a red light turns on)?
![Page 62: Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… · electrochemical observations Chapter 4: ... 7+ 6+ 4+ 3+ 2+ 0 ... A Pourbaix diagram is](https://reader035.fdocuments.us/reader035/viewer/2022062302/5aa2d1f77f8b9ada698d6718/html5/thumbnails/62.jpg)
208How would one test the accuracy of a reference electrode?
● Measure the potential of an internal standard versus this
reference electrode
(e.g. ferrocene in non-aqueous electrolyte)
● Measure the potential of this reference electrode versus several
other reference electrodes with a voltmeter
(e.g. Ag (s) | AgCl (s) | Cl– (sat’d) | AgCl (s) | Ag (s))
What if no matter what you do, the potential is unstable or the equipment
overloads (i.e. gives you an error; often a red light turns on)?
● Throw the electrode away? NO WAY!
● Fix it!
● Check for (insulating) bubbles… change the frit… remake the
redox couple… something else?
… check out tidbits on troubleshooting EChem systems (B&F 15.9)
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209
Specifically, we need a reference electrode that has the
following attributes:
1. It has a well-defined and invariant potential. That is, no
matter how much current we draw from this electrode, its
potential must not vary.
2. It has zero impedance. That is, it imposes no resistive
load on our cell.
3. It does not “contaminate” our solution. That is, it is not a
source of undesired ions in our electrochemical cell.
… now, as mentioned earlier, unfortunately, real reference
electrodes can do none of these things perfectly…
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WE = working
electrode
RE = reference
electrode
CE = counter (or
auxiliary) electrode
“Out of sight, out
of mind” is a bad
motto!
210
http://www.porous-35.com/electrochemistry-semiconductors-10.html
… so we resort to a 3-electrode potentiostat…
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211… invented in 1937 by Hickling…
Hickling, Trans. Faraday Soc., 1942, 38, 27
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212… invented in 1937 by Hickling…
Hickling, Trans. Faraday Soc., 1942, 38, 27
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213
this is a
vacuum tube!
… invented in 1937 by Hickling…
Hickling, Trans. Faraday Soc., 1942, 38, 27
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214… invented in 1937 by Hickling…
Hickling, Trans. Faraday Soc., 1942, 38, 27
in fact, it's this
vacuum tube!
https://www.tubeworld.com/european.htm
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215
http://en.wikipedia.org/wiki/Operational_amplifierhttp://www.ti.com/product/LMP7721/technicaldocuments
… this is how (many famous electrochemists) do this today…
an op-amp
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216
http://en.wikipedia.org/wiki/Operational_amplifierhttp://www.ti.com/product/LMP7721/technicaldocuments
… this is how (many famous electrochemists) do this today…
an op-amp
20 transistors, 11 resistors, and 1 capacitor; Wow!
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217
http://en.wikipedia.org/wiki/Operational_amplifierhttp://www.ti.com/product/LMP7721/technicaldocuments
… this is how (many famous electrochemists) do this today…
an op-amp
20 transistors, 11 resistors, and 1 capacitor; Wow!
fixed values (vs. ground)
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218… this is how (many famous electrochemists) do this today…
an op-amp
Horowitz and Hill, The Art of Electronics, Cambridge University Press, 1980
http://hyperphysics.phy-astr.gsu.edu/hbase/electronic/opampi.html#c2
Op-amp Golden Rules
Ideal rules that are close to correct in practice.
For an op-amp with feedback (which we have),
(1) The Voltage Rule: The output (VOUT) attempts
to do whatever is necessary to make the
potential difference between the inputs (IN+
and IN-) zero (because V– and V+ are fixed).
(2) The Current Rule: The inputs to IN+ and IN-
draw no net current. Thus, by Ohm’s law, the
impedance is essentially infinite! …
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219… this is how (many famous electrochemists) do this today…
an op-amp
Horowitz and Hill, The Art of Electronics, Cambridge University Press, 1980
http://hyperphysics.phy-astr.gsu.edu/hbase/electronic/opampi.html#c2
Op-amp Golden Rules
Ideal rules that are close to correct in practice.
For an op-amp with feedback (which we have),
(1) The Voltage Rule: The output (VOUT) attempts
to do whatever is necessary to make the
potential difference between the inputs (IN+
and IN-) zero (because V– and V+ are fixed).
(2) The Current Rule: The inputs to IN+ and IN-
draw no net current. Thus, by Ohm’s law, the
impedance is essentially infinite! …
How does the output then pass current?
http://www.clipartsfree.net/small/
1174-brain-in-profile-clipart.html
http://shujaabbas.hubpages.com/h
ub/Cartoon-Boxing-Champion
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vs. ground
220
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
… this is how (many famous electrochemists) do this today…
… three op-amps!an op-amp
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vs. ground
221
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
… this is how (many famous electrochemists) do this today…
… three op-amps!
a current-to-voltage converter (current
follower) with IN+ held at ground, and thus
IN– at virtual ground; Iin(WE) = Vout/R,
where R is termed the feedback resistor
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vs. ground
222
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
… this is how (many famous electrochemists) do this today…
… three op-amps!
a current-to-voltage converter (current
follower) with IN+ held at ground, and thus
IN– at virtual ground; Iin(WE) = Vout/R,
where R is termed the feedback resistor
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vs. ground
223
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
… this is how (many famous electrochemists) do this today…
… three op-amps!
a voltage follower with unity
gain due to the two 10kΩ
resistors, and so Vin = Vout,
and even if Iout is large, it
does not draw from Vin
(stable), but rather from the
“muscle” (leads not shown)
a current-to-voltage converter (current
follower) with IN+ held at ground, and thus
IN– at virtual ground; Iin(WE) = Vout/R,
where R is termed the feedback resistor
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vs. ground
224
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
… this is how (many famous electrochemists) do this today…
… three op-amps!
a voltage follower with unity
gain due to the two 10kΩ
resistors, and so Vin = Vout,
and even if Iout is large, it
does not draw from Vin
(stable), but rather from the
“muscle” (leads not shown)
a current-to-voltage converter (current
follower) with IN+ held at ground, and thus
IN– at virtual ground; Iin(WE) = Vout/R,
where R is termed the feedback resistor
VIN+ = VIN–
VIN+ = Vin(RE) + IIN+R
VIN– = Vout + IIN–R
Thus, Vin(RE) = Vout
IIN+ = IIN– ≈ 0
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vs. ground
f
225
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
… this is how (many famous electrochemists) do this today…
… three op-amps!a voltage-to-current amplifier (Iout = Vin/Rf)
supplies current between the CE (and WE
via the ground) in order to maintain the
difference in potential between the
WE/ground and RE (Eapp = Vin); gain = Rf/R
a voltage follower with unity
gain due to the two 10kΩ
resistors, and so Vin = Vout,
and even if Iout is large, it
does not draw from Vin
(stable), but rather from the
“muscle” (leads not shown)
a current-to-voltage converter (current
follower) with IN+ held at ground, and thus
IN– at virtual ground; Iin(WE) = Vout/R,
where R is termed the feedback resistor
![Page 80: Lecture #3 of 18 - University of California, Irvineardo/echem/UCI-CHEM248-2017W_lecture… · electrochemical observations Chapter 4: ... 7+ 6+ 4+ 3+ 2+ 0 ... A Pourbaix diagram is](https://reader035.fdocuments.us/reader035/viewer/2022062302/5aa2d1f77f8b9ada698d6718/html5/thumbnails/80.jpg)
vs. ground
f
226
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
… this is how (many famous electrochemists) do this today…
… three op-amps!
a voltage follower with unity
gain due to the two 10kΩ
resistors, and so Vin = Vout,
and even if Iout is large, it
does not draw from Vin
(stable), but rather from the
“muscle” (leads not shown)
a current-to-voltage converter (current
follower) with IN+ held at ground, and thus
IN– at virtual ground; Iin(WE) = Vout/R,
where R is termed the feedback resistor
Vin/R = –Vout/Rf
Thus, Vout = –Vin∙Rf/R
Iin = Iout
Iout = –Vout/RfIin = Vin/R a voltage-to-current amplifier (Iout = Vin/Rf)
supplies current between the CE (and WE
via the ground) in order to maintain the
difference in potential between the
WE/ground and RE (Eapp = Vin); gain = Rf/R
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vs. ground
f
227
http://electronicdesign.com/Content/14978/59899_fig_02.jpg
Eapp
If we want to be able to adjust the voltage on the WE, we introduce
Eapp here…
a voltage follower with unity
gain due to the two 10kΩ
resistors, and so Vin = Vout,
and even if Iout is large, it
does not draw from Vin
(stable), but rather from the
“muscle” (leads not shown)
a current-to-voltage converter (current
follower) with IN+ held at ground, and thus
IN– at virtual ground; Iin(WE) = Vout/R,
where R is termed the feedback resistor
a voltage-to-current amplifier (Iout = Vin/Rf)
supplies current between the CE (and WE
via the ground) in order to maintain the
difference in potential between the
WE/ground and RE (Eapp = Vin); gain = Rf/R
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228Note especially the following for older (simpler) potentiostats:
1. The working electrode (WE) is at (virtual) ground and has a very
low impedance, Z = R + iX. You cannot get an electrical shock at
this electrode or at this input to the potentiostat.
2. Amplifier U3 takes the current at the WE and converts it into a
potential so it can be recorded. V = IR at the output of U3.
3. The reference electrode (RE), connected to the non-inverting input
(+) of the op-amp U2, is asked to source a minute amount of
current (~3 fA for this particular op-amp; 0 fA is the ideal case).
4. Op-amp U1 produces, at the counter electrode (CE), an output
current, Iout, that is proportional to the potential difference between
RE and WE (i.e. ground). Caution: You CAN get a lethal shock at
this electrode. However, this power is not infinite (your wall
sockets have a limited power they can supply). The potentiostat
limits are termed the compliance voltage and current…
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229
0.1 0.2 0.3 0.4 0.5
-8.0x10-5
-6.0x10-5
-4.0x10-5
-2.0x10-5
0.0
2.0x10-5
4.0x10-5
6.0x10-5
8.0x10-5
250 mV/s
100
50
25
10
5
I /A
E /V
4.8mM ferrocene, 0.1M [NEt4][BF
4], MeCN
flow rate = 1ml/hr
http://www.autolab-instruments.com
Beware of compliance voltage issues (maximum voltage to CE)…
… and compliance current too!
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230
http://www.consultrsr.net/resources/pstats/design.htm
Active I/E Converter versus Passive I/E Converter
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231
Active I/E Converter versus Passive I/E Converter
http://www.consultrsr.net/resources/pstats/design2.htm
“Many modern potentiostats use the architecture shown
here, yet it is rarely discussed at length in textbooks!”
“This scheme has been used by Gamry, PAR, Solartron,
and perhaps others [and likely Bio-Logic].”
Unlike the active I/E converter design,
• this I/E converter is passive… current only flows
through passive circuit elements (e.g. R, C, not op-amp)
• the working electrode is NOT at (virtual) (earth)
ground
• the electrometer is differential between the RE and the
WE sense (RE #2)
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232
Active I/E Converter versus Passive I/E Converter
http://www.consultrsr.net/resources/pstats/design2.htm
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233Potentiostat summary
The potentiostat does not control the potential of the
working electrode!
The potentiostat controls the potential of the counter
electrode only (relative to the working electrode)
The counter electrode is the most important electrode,
followed by the reference electrode
Compliance voltage limits are very important in the choice
of the potentiostat / application
With a few components you can build your own potentiostat
for < $100!
“Passive” potentiostats do not hold the WE at earth ground,
but can measure potentials across electrolyte interfaces
Rowe, ..., Plaxco, PLoS One, 2011, 6, e23783
Mott, ..., Sykes, J. Chem. Educ., 2014, 91, 1028
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WE = working
electrode
RE = reference
electrode
CE = counter (or
auxiliary) electrode
“Out of sight, out
of mind” is a bad
motto!
234
http://www.porous-35.com/electrochemistry-semiconductors-10.html
… and that is why we use a 3-electrode potentiostat…