The document discusses the dropping mercury electrode (DME), which is a working electrode used in polarography where mercury drops from a reservoir through a capillary tube into the solution being analyzed. It provides details on the structure of the DME including the mercury reservoir and capillary tube. The document also describes how the DME works, lists different types of mercury electrodes, and discusses the advantages, disadvantages, and precautions of using the DME.
1. Dr. Y. S. THAKARE
M.Sc. (CHE) Ph D, NET, SET
Assistant Professor in Chemistry,
Shri Shivaji Science College, Amravati
Email: yogitathakare_2007@rediffmail.com
SEM-III
PAPER-X
ANALYTICAL CHEMISTRY –I
THERMAL AND ELECTROANALYTICAL METHOD
UNIT- IV
Electroanalytical Technique
Structure, Uses and Limitation of Dropping Mercury Electrode
1
2. Unit IV Electroanalytical Techniques
Polarography: Theory, Basic principle of polarography, apparatus.
Dropping mercury electrode. Supporting electrolyte, effect of supporting
electrolyte on limiting electrode. Diffusion coefficient and its evolution.
Ilkovic equation, its derivation and its applications, Ilkovic equation-
diffusion current constant and capillary characteristics determination,
Half wave potential. Polarographic maxima. Interpretation of
polarographic curve. Role of temperature on diffusion current. Reversible,
quasi reversible and irreversible electrode reaction and evaluation of
parameter using various reaction derivative polarography, modified
polarographic techniques, AC polarography, limitations of polarography,
pulse polarography. Method of quantitative analysis: Absolute,
comparative. The PILOT ION and kinetic methods.
Voltammetry: Basic, Principles, Instrumentation, Cyclic voltammetry-
Principle, Instrumentation and applications, Voltammogram, Stripping
technique, Anodic and Cathodic voltammetry, and their applications in the
determination of metal ions and biologically important compounds.
Enzyme catalyzed reaction and applications of voltammetry in monitoring
such reaction.
Related Techniques: Amperometric titration and Chronopotentiometry,
Principle methodology, and their application in qualitative and
quantitative analysis.
Electrode – The metal rod dipped in its salt solution 2
Dr. Yogita Sahebrao Thakare
3. Content
What is DME ?
Structure of DME
Working OF DME
Types of Mercury Electrode
Advantages of DME
Disadvantages of DME
Precautions can be taken while using DME
4. What is DME?
The dropping mercury electrode
(DME) is a working electrode
arrangement for polarography in
which mercury continuously drops
from a reservoir through a capillary
tube into the solution. The optimum
interval between drops for most
analyses is between 1-5 sec. The
unique advantage to the use of DME is
that the constant renewal of the
electrode surface , exposed to the test
solution eliminates the effects of
electrode poisoning.
5. 1] Mercury reservoir
It consist of mercury reservoir bulb
about 100 ml capacity.
The reservoir is clamped in vertical
position.
It connected by flexible tubing to a
glass capillary tube.
The mercury reservoir is raised to
appropriate height on the stand and its
position is marked.
The position / height of the reservoir
should be kept the same throughout
the experiment to get reproducible
results.
Structure of DME
6. 2] Capillary tube
The glass tube is ≈7 cm in length and 0.5 mm
in diameter.
One end of the capillary tube is attached to
the flexible tube and clamped. The other end
of the capillary tube dips under the surface of
the solution to be analysed(electrolyte).
The drops of mercury come out from the
capillary continuously.
The drops of mercury are identical with
diameters of ≈0.5 to 1mm.
The life time of an individual drop is 3 to 6
seconds.
The DME is here shown as the cathode
The DME is called as the working electrode
or microelectrode or the indicator
electrode.
7. Working
1. Dropping mercury electrode is a
polarizable electrode and act as a both
anode and cathode.
2. The pool of mercury acts as counter
electrode i.e. anode if DME is cathode
cathode if DME is anode
3. The counter electrode is non-polarizable
electrode.
4. The analyte solution , electrolyte like KCl
is added i.e. 50-100 times of sample
concentration.
5. Pure nitrogen gas is bubbled though the
solution to expel out oxygen.
6. ex:- If the analyte solution contain
cadmium ions ,then cadmium ions
discharged at cathode
8. 7. Then gradually increasing voltage is applied
to the polarographic cell and current is
recorded.
8. Graph is plotted between applied voltage
and current , this graph is called as
polarogram and the apparatus is known
polarograph.
9. The diffusion current produced is directly
proportional to concentration of analyte
and this is use for quantitative analysis.
10. The half wave potential is characteristic
of every compound and this is used in
qualitative analysis.
9. Types of Mercury electrode
1] DME(dropping mercury electrode)
The mercury drop forms at the end of the
capillary through gravity. It grows
continuously as the mercury flows the
reservoir and has a finite lifetime of several
seconds. It is then dislodged and replaced by
a new drop.
2] SMDE (Static Mercury Drop Electrode)
This electrode uses a solenoid plunger to
control the flow of mercury. Activation of the
solenoid momentarily lifts the plunger ,
allowing mercury to flow through the
capillary forming a single hanging Hg-drop.
3] HDME (Hanging Mercury
drop electrode)
The drop of mercury is extended by rotating a
micrometer screw that pulses the mercury
from a reservoir through a narrow capillary.
10. Advantages DME
• The surface of mercury drop is smooth, continuously
renewed and surface area is reproducible. This
eliminates passivity and poisoning effect.
• Mercury forms amalgam with many metals.
• The surface area can be calculated from the weight of
the drops. Since the electrolyte is continuously
renewed, series of scan be estimated in the given
solution.
• The diffusion current assumes a steady value
immediately after each change of the applied potential,
and is reproducible.
• It can be over the range of +o.4 to -2.0 volt with
reference to the saturated calomel electrode.
11. Disadvantages DME
• Capillary is very small and thus can be easily blocked.
• Mercury is very toxic.
• Surface area of each drop of mercury is never constant.
• It cannot be used at higher positive potential due to
oxidation of mercury.
• The area of microelectrode is constantly changing as the
size of the drops changes.
• Mercury may be easily oxidized and that DME can be used
only for the analysis of reducible or very easily oxidisible
substances.
• The electrode generate some small currents like ,residual
and migration current ,which causes error in the current
measurement.
12. Precaution to be taken while using DME
• Pure and triple distilled mercury should be used in
DME.
• Tip of DME should be always immersed in water when
not in use.
• Tip of DME should be cleaned by dipping in nitric acid.
• The DME assembly should be mounted vertical on a
heavy stand to be free from vibrations.
• It is essential to use clean and dust free tubing while
setting the DME.
• There should be sufficient mercury in reservoir so that
the pressure changes are negligible.