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Titrimetric analysis of drugs based on 1) neutralization 2)Hydrolysis 3)Oxidation 4)Reduction 5)Non-aqueous

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Titrimetric Analysis of drugs based on 1)Neutralization 2)Hydrolysis 3)Oxidation 4)Reduction 5)Non-Aqueous

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INSTRUMENTATION ASSIGNMENT GROUP#3: Group Members: Komal Yaqoob BPD02181211 Zoha Abbas BPD02181065 Muqaddas Latif BPD02181153 Qurat ul Ain BPD02181229 TOPIC NAME: “Titrimitric Analysis of Drug Based on:  Neutralization  Hydrolysis  Oxidation  Reduction  Non Aqueous Titration” SUBMITTED TO: Mam Rushda Beedar THE UNIVERSITY OF LAHORE PHARMACY DEPARTMENT “TITRIMETRIC ANALYSIS”
INTRODUCTION: “Titrimetry is the analytical study in which the volume act as analytical signals. The basic experimental operation in titrimetric analysis is called a titration.”  In titration, a solution of accurately known concentration is added to a second reactant, the solution of sample whose amount or concentration is to be determined  Titrant is added to asample (titrand) until theamount of titrant is chemically equivalent to theamount of titrand.  The stage at which equivalence occur is called the equivalence point andexperimental, it is calledend point  .From the amount oftitrant use to reach the end point, its concentrationand known stoichiometryof the titration reaction. We are able to calculatethe amount or theconcentration of same substance. INSTRUMENTATION:  The only essential instrumentfor an acid - base titration is means fordelivering thetritrantto the titrand.  The most common method for delivering the titrant is a burette. A burette is a long narrow tube with graduated markings and equipped with a stop cork for dispensing the titrant.  The burette’s small internal diameter provides a better defined meniscus making it easier to read the volume preciously.  A titration can be automated by using a pump to deliver the titrant at a constant flow rate. Automated titrations offer additional advantage of using a microcomputer for data storage and analysis. DETERMINATION OFEND POINTIN TITRATION: Determinationof end point in titration isas possible on the basis ofdifferent techniques as described below:
1 ) Finding the end pointwith an indicator: Oneinteresting group of weak acidsand weak bases are organic dyes.  Because an organic dyes has at least onehighlycolored conjugateacid and base species, its tiltration ,results in a change in bothpH and color.We can use this changein color to indicate theend point of a titrationand provided that itoccurs at or near thetitrations equivalence point. Examples of such indicator include:  Cresol red  Thymol blue  Bromophenol blue  Methyl orange  Phenolphthalein  Methyl red etc 2) Finding the end point by monitoring the pH:
 An alternative approach for locating titrations end point is to continuously monitor the titrations progress by using aSensor whosesignal is a function of titrand’s / analyte concentration.  The result is a plot of the entire titration curve, which we can use to locate the end point with the minimal error.  The obvious sensor for monitoring the acid base titration is the pH electrode and the result is the potentiometrictitration curve.  As most of the titration is based on neutralization principle. So end point is achieved as the pH approaches to 7. 3)Finding the endpoint by monitoringthe temperature: End point of the titrationcan also be determinedby continuous monitoringof the titrands temperature. This is called titrationbranch.  The reaction betweenacid, base is exothermicreaction.Before adding the titrantto the titrand, changesin the titrand’s temperature are due toenvironmental factors, butas the titrant is addedto the sample the temperaturebegansto rise.  The temperature continues to rise with each addition of titrant until we reach the end point. After the end point, any change in temperature is due to the titrant’s enthalpy of dilution and the difference between the temperature of titrant and titrand.
4) Finding the end point by monitoring the Amperometry:  Measures the current produced by the titration reaction as a result of the oxidation or reduction of the analyte.  The endpoint is detected as a change in the current.  This method is most useful when the excess titrant can be reduced, as in the titration of the halides with Ag+. 5)Isothermal titration calorimeter:  An instrument that measures the heat produced or consumed by the reaction to determine the endpoint.
 Used in biochemical titrations, such as the determination of how substatres bind to enzymes. PRINCIPLES OFTITRIMETRICANALYSIS: There are different principles on which the titrimetric analysis is based. These include: 1) Neutralization and hydrolysis 2) Oxidation and reduction 3) Non- aqueous titrations 1) Neutralizationand Hydrolysis basedtitrations:  These titrations are also called as acid base titrations. According to this principle, the effect of the sample is neutralized by the addition of titrant.  A sample which may be acid or a base has a specific pH which is more or less than the neutral pH i.e 7. Upon addition of titrant the pH approaches the neutral pH that is 7 as the equivalence point is reached.  Acid base titrations can be further classified as follows depending upon the strength or pH of titrant and titrand or sample. In these titrations, the titration curve is a graph of pH against the volume of the titrant added during a titration. So pH is calculated by Henderson-Hasselbalch equation:
pH = pka + log [conjugate base] / [weak acid] Where pka is the dissociation constant. This type of titration can be occurred between: 1) Strong acid and strong base titration 2) Strong acid and weak base titration 3) Strong base and weak acid titration HCOOH (aq) + KOH HCOOK (aq) + H2O (l) Here the reaction is creating the salt, potassium formate. Because a strong base was used and the salt that was formed is a soluble salt. Ionic equation is: HCOOH (aq) + OH- HCOO- (aq) + H2O (l) When you add enough strong base to react with all of the week acid, all that will remain will be potassium formate. The HCOO- from the salt will then hydrolyse in solution to determine the pH at this point 2)Redox Titration:  A titration that is based on the oxidation reduction reaction between the analyte or sample and the titrant.
 The titrimetric method in this case is mainly based upon the change of the oxidation number or electrons transfer betweenthe reactants i.e these reactions are mainly based upon the oxidation reduction reactions. In redox titration, a reducing substance is titrated with standard solution of an oxidizing agent or vice versa. Principle: The principle involved in the oxidation reduction titrations is that the oxidation process involves the loss of electrons whereas the reduction process involves the gain of electrons. Theory: The oxidation leads to the increase in the oxidation number and reduction leads to the decrease in the oxidation number and if we talk about the electrons then basically oxidation is the loss of electrons while reduction is gain of electrons. So it means oxidizing agents undergo reduction and reducing agents undergo oxidation. Redox indicators:  Redox indicators should be able to possess the sudden change at the equivalence point during the redox titration.  It should be capable of undergoing the oxidation and reduction. The indicators can be of 2 types: 1) Self indicators: The titrant itself acts as a self indicator and it shows the intense color at the end point. For example:
 potassium permagnate (KMnO₄) end point is pink to color less.  Iodine end point is brown to black color. 2) Internal indicator: These are added to the reaction mixture during the titration. For example:  Phenanthroline blue  Methylene blue etc. 3) Non-aqueous titrations:  Almost all of the organic substances are insoluble in water and thus cannot be determined with ordinary titrimetric analysis.  In 1912, another method for the determination of such substances was introduced. In this method, the substances are titrated or analyzed during non-aqueous solvent. Principle: The organic acid or bases are insoluble in water. These are extremely weak and cannot be analyzed using normal method. So the non-aqueous titrimetric method is used and the main principle involved in this method is the samples are dissolved in the non-aqueous solvents. Example: Titration analysis of pyridine which is very weak base and used as sample dissolved in acetic acid which is acidic solvent titrated with perchloric acid (HClO₄) (titrant) dissolved in acetic acid.
HClO₄ +CH₃COOH CH₃COOH₂⁺ + ClO₄¯ C6H5N + CH₃COOH C6H5NH⁺ + CH₃COO‾ CH₃COOH₂⁺ + CH₃COO- 2CH₃COOH Summing up: HClO₄ + C6H5N C6H5NH⁺ + ClO₄‾ APPLICATIONS OF TITRIMETRIC ANALYSIS: 1) Pharmacist used titration for quality assurance and determination of different substances. 2) Anesthetics concentrations are determined before administering them to the patients before major surgeries.
3) Titration is also used to measure the blood glucose level in the diabetic patients. 4) Food industry uses titration to determine the amount of saturated and unsaturated fatty acids. 5) Titration helps in the determination of salts, sugar and various vitamins in the food that we consume. 6) Used for the standardization of bio-diesel in the auto mobile industry.

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Titrimetric analysis of drugs based on 1) neutralization 2)Hydrolysis 3)Oxidation 4)Reduction 5)Non-aqueous

  • 1. INSTRUMENTATION ASSIGNMENT GROUP#3: Group Members: Komal Yaqoob BPD02181211 Zoha Abbas BPD02181065 Muqaddas Latif BPD02181153 Qurat ul Ain BPD02181229 TOPIC NAME: “Titrimitric Analysis of Drug Based on:  Neutralization  Hydrolysis  Oxidation  Reduction  Non Aqueous Titration” SUBMITTED TO: Mam Rushda Beedar THE UNIVERSITY OF LAHORE PHARMACY DEPARTMENT “TITRIMETRIC ANALYSIS”
  • 2. INTRODUCTION: “Titrimetry is the analytical study in which the volume act as analytical signals. The basic experimental operation in titrimetric analysis is called a titration.”  In titration, a solution of accurately known concentration is added to a second reactant, the solution of sample whose amount or concentration is to be determined  Titrant is added to asample (titrand) until theamount of titrant is chemically equivalent to theamount of titrand.  The stage at which equivalence occur is called the equivalence point andexperimental, it is calledend point  .From the amount oftitrant use to reach the end point, its concentrationand known stoichiometryof the titration reaction. We are able to calculatethe amount or theconcentration of same substance. INSTRUMENTATION:  The only essential instrumentfor an acid - base titration is means fordelivering thetritrantto the titrand.  The most common method for delivering the titrant is a burette. A burette is a long narrow tube with graduated markings and equipped with a stop cork for dispensing the titrant.  The burette’s small internal diameter provides a better defined meniscus making it easier to read the volume preciously.  A titration can be automated by using a pump to deliver the titrant at a constant flow rate. Automated titrations offer additional advantage of using a microcomputer for data storage and analysis. DETERMINATION OFEND POINTIN TITRATION: Determinationof end point in titration isas possible on the basis ofdifferent techniques as described below:
  • 3. 1 ) Finding the end pointwith an indicator: Oneinteresting group of weak acidsand weak bases are organic dyes.  Because an organic dyes has at least onehighlycolored conjugateacid and base species, its tiltration ,results in a change in bothpH and color.We can use this changein color to indicate theend point of a titrationand provided that itoccurs at or near thetitrations equivalence point. Examples of such indicator include:  Cresol red  Thymol blue  Bromophenol blue  Methyl orange  Phenolphthalein  Methyl red etc 2) Finding the end point by monitoring the pH:
  • 4.  An alternative approach for locating titrations end point is to continuously monitor the titrations progress by using aSensor whosesignal is a function of titrand’s / analyte concentration.  The result is a plot of the entire titration curve, which we can use to locate the end point with the minimal error.  The obvious sensor for monitoring the acid base titration is the pH electrode and the result is the potentiometrictitration curve.  As most of the titration is based on neutralization principle. So end point is achieved as the pH approaches to 7. 3)Finding the endpoint by monitoringthe temperature: End point of the titrationcan also be determinedby continuous monitoringof the titrands temperature. This is called titrationbranch.  The reaction betweenacid, base is exothermicreaction.Before adding the titrantto the titrand, changesin the titrand’s temperature are due toenvironmental factors, butas the titrant is addedto the sample the temperaturebegansto rise.  The temperature continues to rise with each addition of titrant until we reach the end point. After the end point, any change in temperature is due to the titrant’s enthalpy of dilution and the difference between the temperature of titrant and titrand.
  • 5. 4) Finding the end point by monitoring the Amperometry:  Measures the current produced by the titration reaction as a result of the oxidation or reduction of the analyte.  The endpoint is detected as a change in the current.  This method is most useful when the excess titrant can be reduced, as in the titration of the halides with Ag+. 5)Isothermal titration calorimeter:  An instrument that measures the heat produced or consumed by the reaction to determine the endpoint.
  • 6.  Used in biochemical titrations, such as the determination of how substatres bind to enzymes. PRINCIPLES OFTITRIMETRICANALYSIS: There are different principles on which the titrimetric analysis is based. These include: 1) Neutralization and hydrolysis 2) Oxidation and reduction 3) Non- aqueous titrations 1) Neutralizationand Hydrolysis basedtitrations:  These titrations are also called as acid base titrations. According to this principle, the effect of the sample is neutralized by the addition of titrant.  A sample which may be acid or a base has a specific pH which is more or less than the neutral pH i.e 7. Upon addition of titrant the pH approaches the neutral pH that is 7 as the equivalence point is reached.  Acid base titrations can be further classified as follows depending upon the strength or pH of titrant and titrand or sample. In these titrations, the titration curve is a graph of pH against the volume of the titrant added during a titration. So pH is calculated by Henderson-Hasselbalch equation:
  • 7. pH = pka + log [conjugate base] / [weak acid] Where pka is the dissociation constant. This type of titration can be occurred between: 1) Strong acid and strong base titration 2) Strong acid and weak base titration 3) Strong base and weak acid titration HCOOH (aq) + KOH HCOOK (aq) + H2O (l) Here the reaction is creating the salt, potassium formate. Because a strong base was used and the salt that was formed is a soluble salt. Ionic equation is: HCOOH (aq) + OH- HCOO- (aq) + H2O (l) When you add enough strong base to react with all of the week acid, all that will remain will be potassium formate. The HCOO- from the salt will then hydrolyse in solution to determine the pH at this point 2)Redox Titration:  A titration that is based on the oxidation reduction reaction between the analyte or sample and the titrant.
  • 8.  The titrimetric method in this case is mainly based upon the change of the oxidation number or electrons transfer betweenthe reactants i.e these reactions are mainly based upon the oxidation reduction reactions. In redox titration, a reducing substance is titrated with standard solution of an oxidizing agent or vice versa. Principle: The principle involved in the oxidation reduction titrations is that the oxidation process involves the loss of electrons whereas the reduction process involves the gain of electrons. Theory: The oxidation leads to the increase in the oxidation number and reduction leads to the decrease in the oxidation number and if we talk about the electrons then basically oxidation is the loss of electrons while reduction is gain of electrons. So it means oxidizing agents undergo reduction and reducing agents undergo oxidation. Redox indicators:  Redox indicators should be able to possess the sudden change at the equivalence point during the redox titration.  It should be capable of undergoing the oxidation and reduction. The indicators can be of 2 types: 1) Self indicators: The titrant itself acts as a self indicator and it shows the intense color at the end point. For example:
  • 9.  potassium permagnate (KMnO₄) end point is pink to color less.  Iodine end point is brown to black color. 2) Internal indicator: These are added to the reaction mixture during the titration. For example:  Phenanthroline blue  Methylene blue etc. 3) Non-aqueous titrations:  Almost all of the organic substances are insoluble in water and thus cannot be determined with ordinary titrimetric analysis.  In 1912, another method for the determination of such substances was introduced. In this method, the substances are titrated or analyzed during non-aqueous solvent. Principle: The organic acid or bases are insoluble in water. These are extremely weak and cannot be analyzed using normal method. So the non-aqueous titrimetric method is used and the main principle involved in this method is the samples are dissolved in the non-aqueous solvents. Example: Titration analysis of pyridine which is very weak base and used as sample dissolved in acetic acid which is acidic solvent titrated with perchloric acid (HClO₄) (titrant) dissolved in acetic acid.
  • 10. HClO₄ +CH₃COOH CH₃COOH₂⁺ + ClO₄¯ C6H5N + CH₃COOH C6H5NH⁺ + CH₃COO‾ CH₃COOH₂⁺ + CH₃COO- 2CH₃COOH Summing up: HClO₄ + C6H5N C6H5NH⁺ + ClO₄‾ APPLICATIONS OF TITRIMETRIC ANALYSIS: 1) Pharmacist used titration for quality assurance and determination of different substances. 2) Anesthetics concentrations are determined before administering them to the patients before major surgeries.
  • 11. 3) Titration is also used to measure the blood glucose level in the diabetic patients. 4) Food industry uses titration to determine the amount of saturated and unsaturated fatty acids. 5) Titration helps in the determination of salts, sugar and various vitamins in the food that we consume. 6) Used for the standardization of bio-diesel in the auto mobile industry.