Presiding Officer Training module 2024 lok sabha elections
End point detection in complexometric titration
1. METHOD OF END POINT
DETECTION IN COMPLExOMETRIC
TITRATION
RENJITHA J R
ASSISTANT PROFESSOR
MOUNT ZION COLLEGE OF
PHARMACEUTICAL SCIENCES AND RESEARCH,ADOOR
2. End point detection in complexometric titration is mainly performed by two
methods.
Visual method
Physical method
4. a) Metal or Metallochromic indicators
The simplest and most convenient method of metal analysis is the direct titration
of a metal ion with a standardized EDTA solution using a visual colour change of
a metal indicator to direct the end point.
Metal ion indicators are substances ,usually dyes which produce one colour in the
presence of free metal ions and a different colour (or no colour) when they are
absent.
Requirement of indicators
1) The compound must be chemically stable
2) The metal indicators should from a 1: 1 complex which must be weaker than
the metal chelon complex.
3) Should have sufficient stability to withstand dilution
4) Colour reaction should be selective to the metal being titrated.
7. C) Redox Indicators
This method is very limited and can be applied only to special
systems.
The metal ion must be a component of a redox couple
The metal such as Iron must be able to exist in two different
oxidation states which are in equilibrium in the solution.
Eg; variamine blue B, is used in titration of ferric ion by EDTA &
at the end point the violet blue shade becomes colorless.
9. 1) Spectrophotometric detection
The change in absorption spectrum when a metal ion of a complexing
agent is converted to the metal complex is observed.
2) Amperometric titration
The change in diffusion current is recorded with respect to the addition
of titrant.
3) Potentiometric titration
The end point of the titration is indicated by a large and rapid change of
potential . The change of potential is measured at indicator electrode.
4) High frequency titrator
The method is particularly suitable for dilute solution. The ions can
titrated directly in buffered solution.
10. pM indicators (metal ion indicators)
Classification & eg;
1) Hydroxy azo compound : mordant black – II
Solochrome dark blue
2) Phenolic compounds: xylenol orange
catechol violet
methyl & thymol blue
3) Anthraquinone dye: alizarin
4) others: murexide
diphenyl carbazone
variamine blue
14. MASKING AGENTS
Masking may be defined as the process in which a substance , with out
physical separation of it or its reaction products, is so transformed that it
does not enter into a particular reaction.
Masking agents acts either by precipitation or by formation of complexes
more stable than the interfering ion- edetate complex.
Masking agent can be defined as a complexing agent that reacts selectively
with a component in a solution and in so doing prevents that component from
interfering in an analysis.
The term masking is used to indicate the determination of a metal in the
presence of another metal.
The masking can be accomplished by adjusting the pH of the titration medium
so that it will be favorable for complexation of the metal being determined
and not of the other metal.
Eg 1; bismuth will complex at ph 2 in the presence of most other metal and
without interference with them.
Eg 2; Zinc will not interfere with calcium titration at ph of 13.
15. Eg of masking agents;
Ammonium fluoride (mask aluminium, iron, and titanium by complex formation.)
Ascorbic acid( mask iron,copper etc..)
Dimercaprol( cobalt and copper but not nickel are displaced form their edetate
complexes by dimercaprol)
CH2SH – CHSH – CH2OH
Potassium cyanide (in alkaline solution they form complexes with silver, copper,
mercury, iron, zinc, cadmium etc..)
Potassium iodide (mask mercuric ion)
Tiron (mask aluminium and titanium as colourless complexes)
Triethanolamine (forms colourless complex with aluminium )
[N(CH2- CH2- OH)3
16. MASKING BY PRECIPITATION
Many heavy metals including cobalt, copper, lead can be separated either in the
form of insoluble sulphides using sodium sulphide or as insoluble sulphides using
sodium sulphide or insoluble complexes using thioacetamide. These are filtered
decomposed and titrated with disodium edetate .
Common precipitating agents are;
Sulphate for lead and barium
Oxate for calcium and lead
Fluoride for calcium, magnesium and lead
Ferrocycinide for zinc and copper
8- hydroxyl quinoline for many heavy metals etc..
pH CONTROL
A simple method of masking is based on the fact that the alkaline earth metals
don't form edetate complexes below pH 7 . While most transition elements form
edetate complexes stable down pH 3.
17. DEMASKING AGENT
Demasking is a process in which a masked element or compound is released from
its masked form, and regains its activity to enter into reactions with certain
substances.
Eg; formaldehyde
chloralhydrate
Methods Used for Demasking
1) Decomposition of the masking reagent
2) Replacement of the masked ion in a complex by anotherion with which the
masking agent forms a stronger complex
3) By change of pH to alter the stability of a complex.
4) By changing the oxidation state of the completed ion.
5) By volatilization of one of the components of the masked system.