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Prepared by:-
MOHD ARIF
M.PHARM 1st
SEM
(PHARMACEUTICAL ANALYSIS).
 INTRODUCTION
 DEFINITION
 THEORY
 FACTORS AFFECTING FLOURESCENCE
 APPLICATIONS IN PHARMACY
 INSTRUMENTATION
Luminescence is the emission of light by a
substance. It occurs when an electron
returns to the electronic ground state from
an excited state and loses its excess energy
as a photon.
It is of 3 types.
Fluorescence spectroscopy.
Phosphorescence spectroscopy.
Chemiluminescence spectroscopy
When a beam of light is incident on certain
substances they emit visible light or
radiations. This is known as fluorescence.
Fluorescence starts immediately after the
absorption of light and stops as soon as the
incident light is cut off.
The substances showing this phenomenon are
known as flourescent substances.
When light radiation is incident on certain
substances they emit light continuously
even after the incident light is cut off.
This type of delayed fluorescence is called
phosphorescence.
Substances showing phosphorescence are
phosphorescent substances.
A molecular electronic state in which all of the
electrons are paired are called singlet state.
In a singlet state molecules are diamagnetic.
Most of the molecules in their ground state are paired.
When such a mole cule absorbs uv/visible radiation,
one or more of the paired electron raised to an excited
singlet state /excited triplet state.
Ground excited singlet triplet state
singlet state spins unpaired
states spin paired
no net mag.field net mag.field
Fluorescence
Phosphorescence
Radiation less processes
Vibration relaxation
Internal conversion
External conversion
Intersystem crossing
LIGHT EMITING AT ONCE SOURCE STARTS & STOPS
WHEM SOURCE STOPS
JABLONSKI ENERGY
DIAGRAM
FLUORESCENCE
AND CHEMICAL
STRUCTURE
Fluorescence is most commonly observed in
compounds containing aromatic functional
groups with low energy.
Most unsubstituted aromatic hydrocarbons
show fluorescence - quantum efficiency
increases with the no: of rings and degree of
condensation.
CONTD…
Simple heterocyclic do not exhibit
fluorescence.
Fusion of heterocyclic nucleus to benzene ring
increases fluorescence.
 Fluorescence is favored in molecules
with structural rigidity.
 organic chelating agents complexed with
metal ion increases fluorescence.(A
chelating agent is a substance whose
molecules can form several bonds to a single
metal ion).
Nature of molecule
Nature of substituent
Effect of concentration
Adsorption
 Light
Oxygen
pH
Temp . &viscosity
Intensity of incident light
Path length
1.Temperature: it is inversely proportional to
luminescence.
Increase in temp. causes increase in collision of
molecules and finally increase in F & P.
Decrease in temp. Causes decrease in collision of
molecules and finally decrease in F & P.
2.Viscosity : It is directly proportional to
luminescence.
Increase in viscosity causes decrease in molecule
collision and finally increase in F & P.
Decrease in viscosity causes increase in molecules
collisions and finally decrease in F& P.
3. Oxygen: It decrease the fluorescence in 2 ways;
Oxidises the fluorescent substance to non
fluorescent substance.
Decrease fluorescence because of paramagnetic
property as it has triplet ground state.
4. pH: its effects depends on chemical structure of
molecules. E.g-
Aniline in neutral & alkaline medium gives visible
flourescence & in acidic medium gives
fluorescence in uv region only.
Phenols in acidic condition do not give f but in
alkaline medium they give fluorescence.
5. Rigidity in structure:
Fluorine has rigid structure and it shows more
fluorescence.
Biphenyl has flexible structure and shows less
fluorescence.
6. Nature of group:
Electron donating groups like amino, hydroxyl
etc causes increase in fluorescence.
Electron withdrawing groups like NO2, COOH
etc causes decrease in fluorescence.
Decrease in fluorescence intensity due to specific
effects of constituents of the solution.
Due to concentration, pH, pressure of chemical
substances, temperature, viscosity, etc.
Types of quenchingTypes of quenching
Self quenchingSelf quenching
Chemical quenchingChemical quenching
Static quenchingStatic quenching
Collision quenchingCollision quenching
Fluorescence
Concentration of
fluorescing species
Deviations at higher concentrations can be
attributed to self-quenching or self-
absorption.
Fluorescence
Concentration of
fluorescing species
Calibration curve
(Low con)
calibration curve
(High con)
Here decrease in fluorescence intensity due to the
factors like change in pH,presence of oxygen, halides
&heavy metals.
 pH- aniline at pH 5-13 gives fluorescence but at pH
<5 &>13 it does not exhibit fluorescence.
 Halides- like chloride,bromide,iodide & electron
withdrawing groups like NO2,COOH etc. leads to
quenching.
 Heavy metals -leads to quenching, because of
collisions of triplet ground state.
This occurs due to complex formation.
e.g- caffeine reduces flourescence of riboflavin by
complex formation.
COLLISIONAL QUENCHING
It reduces fluorescence by collision. where no. of
collisions increased hence quenching takes place.
Types of flourescence
1. Chemiluminescence (when excited by chemicals)
2. Electrochemiluminescence (when excited by
electrochemical reaction)
3. Photoluminescence (when excited by
electromagnetic radiation)
 Based on the wavelength of emitted radiation
1. Stroke’s flourescence (wavelength of the emitted
radiation is longer than the absorbed radiation)
Contd.
2. Anti-stroke’s Flourescence (wavelength of
emitted radiation is shorter than absorbed radiation)
3. Resonance Flourescence (wavelength of emitted
radiation = absorbed radiation)
 Based on Phenomena:
1. Sensitised flourescence (when elements like Th, Zn,
Cd or an alkali metal are added to mercury vapour
these elements are sensitised & thus gives
fluorescence.
2. Thermally assisted Flourescence (the excitation is
partly by electromagnetic radiation and partly by
thermal energy)
INSTRUMENTATIO
N
SOURCE OF LIGHT
FILTERS AND MONOCHROMATORS
SAMPLE CELLS
DETECTORS
MERCURY ARC LAMP.
XENON ARC LAMP.
TUNGSTEN LAMP.
TUNABLE DYE LASERS.
MERCURY ARC LAMP
Produce intense line spectrum above 350nm.
High pressure lamps give lines at 366,405, 436,
546,577,691,734nm.
Low pressure lamps give additional radiation at
254nm.
 Intense radiation by passage of current through an
atmosphere of xenon.
Spectrum is continuous over the range between over 250-
600nm,peak intensity about 470nm.
Intensity of the lamp is low.
If excitation is done in the visible
region this lamp is used.
It does not offer UV radiation.
Pulsed nitrogen laser as the
primary source.
Radiation in the range between
360 and 650 nm is produced.
FILTERS
Primary filter-absorbs visible light & transmits uv light.
Secondary filter-absorbs uv radiations & transmits
visible light.
MONOCHROMATORS
Exitation monochromaters-isolates only the radiation
which is absorbed by the molecule.
Emission monochromaters-isolates only the radiation
emitted by the molecule.
The majority of fluorescence assays are carried out in
solution.
Cylindrical or rectangular cells fabricated of silica or glass
used.
Path length is usually 10mm or 1cm.
All the surfaces of the sample holder are polished in
fluorimetry.
PHOTOVOLTAIC CELL
PHOTO TUBE
PHOTOMULTIPLIER TUBES – Best
and accurate.
SINGLE BEAM FLUORIMETER
DOUBLE BEAM FLUORIMETER
SPECTROFLUORIMETER(DOUBLE
BEAM)
Tungsten lamp as source of light.
The primary filter absorbs visible radiation
and transmits uv radiation.
Emitted radiation measured at 90o
by
secondary filter.
Secondary filter absorbs uv radiation and
transmits visible radiation.
Similar to single beam instrument.
Two incident beams from light source pass through
primary filters separately and fall on either sample or
reference solution.
The emitted radiation from sample or reference pass
separately through secondary filter.
Power
supply
Source primary filter
secondary filter
Detector
Sample cell
Slit
Data processor
 The primary filter in double beam fluorimeter is
replaced by excitation monochromaters.
 The secondary filter is replaced by emission
monochromaters.
 The incident beam is split into sample and reference
beam using a beam splitter.
 The detector is photomultiplier tube.
Power
supply
Source Excitation
monochromator
Emission
monochromator
Detector
Sample
cell
Data processor
1] Determination of inorganic substances
Determination of ruthenium ions in presence of
other platinum metals.
Determination of aluminum (III) in alloys.
Determination of boron in steel by complex
formed with benzoin.
2]Nuclear research
Field determination of uranium salts.
3]Fluorescent indicators
Mainly used in acid-base titration.
e.g.:
eosin- colorless-green.
Fluorescein:colourless-green.
Quinine sulphate: blue-violet.
Acridine: green-violet
compound reagent excitation
wavelength
fluorescence
hydrocortisone 75%v/v
H2SO4 in
ethanol
460 520
5] organic analysis
Qualitative and quantitative analysis of organic
aromatic compounds present in cigarette smoke, air
pollutants, automobile exhausts etc.
6] pharmaceutical analysis
7] Liquid chromatography
Fluorescence is an imp method of
determining compounds as they appear
at the end of chromatogram or capillary
electrophoresis column.
8]determination of vitamin B1 &B2.
THANK YOU FOR WATCHING
MY PRESENTATION

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Flourimetry

  • 1. Prepared by:- MOHD ARIF M.PHARM 1st SEM (PHARMACEUTICAL ANALYSIS).
  • 2.  INTRODUCTION  DEFINITION  THEORY  FACTORS AFFECTING FLOURESCENCE  APPLICATIONS IN PHARMACY  INSTRUMENTATION
  • 3. Luminescence is the emission of light by a substance. It occurs when an electron returns to the electronic ground state from an excited state and loses its excess energy as a photon. It is of 3 types. Fluorescence spectroscopy. Phosphorescence spectroscopy. Chemiluminescence spectroscopy
  • 4. When a beam of light is incident on certain substances they emit visible light or radiations. This is known as fluorescence. Fluorescence starts immediately after the absorption of light and stops as soon as the incident light is cut off. The substances showing this phenomenon are known as flourescent substances.
  • 5. When light radiation is incident on certain substances they emit light continuously even after the incident light is cut off. This type of delayed fluorescence is called phosphorescence. Substances showing phosphorescence are phosphorescent substances.
  • 6. A molecular electronic state in which all of the electrons are paired are called singlet state. In a singlet state molecules are diamagnetic. Most of the molecules in their ground state are paired. When such a mole cule absorbs uv/visible radiation, one or more of the paired electron raised to an excited singlet state /excited triplet state.
  • 7. Ground excited singlet triplet state singlet state spins unpaired states spin paired no net mag.field net mag.field
  • 8. Fluorescence Phosphorescence Radiation less processes Vibration relaxation Internal conversion External conversion Intersystem crossing
  • 9. LIGHT EMITING AT ONCE SOURCE STARTS & STOPS WHEM SOURCE STOPS
  • 11. FLUORESCENCE AND CHEMICAL STRUCTURE Fluorescence is most commonly observed in compounds containing aromatic functional groups with low energy. Most unsubstituted aromatic hydrocarbons show fluorescence - quantum efficiency increases with the no: of rings and degree of condensation.
  • 12. CONTD… Simple heterocyclic do not exhibit fluorescence.
  • 13. Fusion of heterocyclic nucleus to benzene ring increases fluorescence.
  • 14.  Fluorescence is favored in molecules with structural rigidity.  organic chelating agents complexed with metal ion increases fluorescence.(A chelating agent is a substance whose molecules can form several bonds to a single metal ion).
  • 15. Nature of molecule Nature of substituent Effect of concentration Adsorption  Light Oxygen pH Temp . &viscosity Intensity of incident light Path length
  • 16. 1.Temperature: it is inversely proportional to luminescence. Increase in temp. causes increase in collision of molecules and finally increase in F & P. Decrease in temp. Causes decrease in collision of molecules and finally decrease in F & P. 2.Viscosity : It is directly proportional to luminescence. Increase in viscosity causes decrease in molecule collision and finally increase in F & P. Decrease in viscosity causes increase in molecules collisions and finally decrease in F& P.
  • 17. 3. Oxygen: It decrease the fluorescence in 2 ways; Oxidises the fluorescent substance to non fluorescent substance. Decrease fluorescence because of paramagnetic property as it has triplet ground state. 4. pH: its effects depends on chemical structure of molecules. E.g- Aniline in neutral & alkaline medium gives visible flourescence & in acidic medium gives fluorescence in uv region only. Phenols in acidic condition do not give f but in alkaline medium they give fluorescence.
  • 18. 5. Rigidity in structure: Fluorine has rigid structure and it shows more fluorescence. Biphenyl has flexible structure and shows less fluorescence. 6. Nature of group: Electron donating groups like amino, hydroxyl etc causes increase in fluorescence. Electron withdrawing groups like NO2, COOH etc causes decrease in fluorescence.
  • 19. Decrease in fluorescence intensity due to specific effects of constituents of the solution. Due to concentration, pH, pressure of chemical substances, temperature, viscosity, etc. Types of quenchingTypes of quenching Self quenchingSelf quenching Chemical quenchingChemical quenching Static quenchingStatic quenching Collision quenchingCollision quenching
  • 20. Fluorescence Concentration of fluorescing species Deviations at higher concentrations can be attributed to self-quenching or self- absorption. Fluorescence Concentration of fluorescing species Calibration curve (Low con) calibration curve (High con)
  • 21. Here decrease in fluorescence intensity due to the factors like change in pH,presence of oxygen, halides &heavy metals.  pH- aniline at pH 5-13 gives fluorescence but at pH <5 &>13 it does not exhibit fluorescence.  Halides- like chloride,bromide,iodide & electron withdrawing groups like NO2,COOH etc. leads to quenching.  Heavy metals -leads to quenching, because of collisions of triplet ground state.
  • 22. This occurs due to complex formation. e.g- caffeine reduces flourescence of riboflavin by complex formation. COLLISIONAL QUENCHING It reduces fluorescence by collision. where no. of collisions increased hence quenching takes place.
  • 23. Types of flourescence 1. Chemiluminescence (when excited by chemicals) 2. Electrochemiluminescence (when excited by electrochemical reaction) 3. Photoluminescence (when excited by electromagnetic radiation)  Based on the wavelength of emitted radiation 1. Stroke’s flourescence (wavelength of the emitted radiation is longer than the absorbed radiation)
  • 24. Contd. 2. Anti-stroke’s Flourescence (wavelength of emitted radiation is shorter than absorbed radiation) 3. Resonance Flourescence (wavelength of emitted radiation = absorbed radiation)  Based on Phenomena: 1. Sensitised flourescence (when elements like Th, Zn, Cd or an alkali metal are added to mercury vapour these elements are sensitised & thus gives fluorescence. 2. Thermally assisted Flourescence (the excitation is partly by electromagnetic radiation and partly by thermal energy)
  • 26. SOURCE OF LIGHT FILTERS AND MONOCHROMATORS SAMPLE CELLS DETECTORS
  • 27. MERCURY ARC LAMP. XENON ARC LAMP. TUNGSTEN LAMP. TUNABLE DYE LASERS.
  • 28. MERCURY ARC LAMP Produce intense line spectrum above 350nm. High pressure lamps give lines at 366,405, 436, 546,577,691,734nm. Low pressure lamps give additional radiation at 254nm.
  • 29.  Intense radiation by passage of current through an atmosphere of xenon. Spectrum is continuous over the range between over 250- 600nm,peak intensity about 470nm.
  • 30. Intensity of the lamp is low. If excitation is done in the visible region this lamp is used. It does not offer UV radiation.
  • 31. Pulsed nitrogen laser as the primary source. Radiation in the range between 360 and 650 nm is produced.
  • 32. FILTERS Primary filter-absorbs visible light & transmits uv light. Secondary filter-absorbs uv radiations & transmits visible light. MONOCHROMATORS Exitation monochromaters-isolates only the radiation which is absorbed by the molecule. Emission monochromaters-isolates only the radiation emitted by the molecule.
  • 33. The majority of fluorescence assays are carried out in solution. Cylindrical or rectangular cells fabricated of silica or glass used. Path length is usually 10mm or 1cm. All the surfaces of the sample holder are polished in fluorimetry.
  • 35. SINGLE BEAM FLUORIMETER DOUBLE BEAM FLUORIMETER SPECTROFLUORIMETER(DOUBLE BEAM)
  • 36. Tungsten lamp as source of light. The primary filter absorbs visible radiation and transmits uv radiation. Emitted radiation measured at 90o by secondary filter. Secondary filter absorbs uv radiation and transmits visible radiation.
  • 37. Similar to single beam instrument. Two incident beams from light source pass through primary filters separately and fall on either sample or reference solution. The emitted radiation from sample or reference pass separately through secondary filter.
  • 38. Power supply Source primary filter secondary filter Detector Sample cell Slit Data processor
  • 39.  The primary filter in double beam fluorimeter is replaced by excitation monochromaters.  The secondary filter is replaced by emission monochromaters.  The incident beam is split into sample and reference beam using a beam splitter.  The detector is photomultiplier tube.
  • 41.
  • 42. 1] Determination of inorganic substances Determination of ruthenium ions in presence of other platinum metals. Determination of aluminum (III) in alloys. Determination of boron in steel by complex formed with benzoin.
  • 43. 2]Nuclear research Field determination of uranium salts. 3]Fluorescent indicators Mainly used in acid-base titration. e.g.: eosin- colorless-green. Fluorescein:colourless-green. Quinine sulphate: blue-violet. Acridine: green-violet
  • 44. compound reagent excitation wavelength fluorescence hydrocortisone 75%v/v H2SO4 in ethanol 460 520 5] organic analysis Qualitative and quantitative analysis of organic aromatic compounds present in cigarette smoke, air pollutants, automobile exhausts etc. 6] pharmaceutical analysis
  • 45. 7] Liquid chromatography Fluorescence is an imp method of determining compounds as they appear at the end of chromatogram or capillary electrophoresis column. 8]determination of vitamin B1 &B2.
  • 46. THANK YOU FOR WATCHING MY PRESENTATION

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