This document discusses factors that affect fluorescence intensity. It explains that fluorescence intensity is directly proportional to the rigidity of a structure and inversely proportional to temperature. Other factors that can decrease fluorescence intensity include oxygen, which can oxidize fluorescent substances, as well as electron withdrawing substituent groups. Fluorescence intensity is directly proportional to concentration at low concentrations but does not obey linearity at high concentrations. The presence of other non-fluorescent solutes can also impact intensity through inner filter effects. In conclusion, several physicochemical factors influence fluorescence intensity measurements.
3. Introduction 3
FLUORESCENCE
FLUOROMETRY
Fluorescence is the emission of light by a substance that has absorbed
light or other electromagnetic radiation. In most cases, the emitted
light has a longer wavelength, and therefore lower energy, than the
absorbed radiation.
It is measurement of fluorescence intensity at a particular wavelength
with the help of a filter fluorimeter or a spectrofluorimeter.
4. 4
ā¢ Absorption of uv-visible radiation causes transition of
electron from singlet ground state to singlet excited state.
ā¢ As this state is less stable,it emites energy in the form of uv-
visible radiation and returns to singlet ground state.the
measurement of this emitted radiation,is the principle of
the fluorometry.
Principle
Principle of Fluorometry
5. Factors affecting fluorescence
intensity
5
ā¢ Intensity of fluorescence is directly proportional to the rigidity of
structure.
ļµ
ā¢ So,rigid structures shows more fluorescence Intensity, flexible
structures shows less fluorescence Intensity
Rigidity of Structure
Rigidity of Structure ļµ FI
Rigid
structure FI Flexible
structure FI
6. Continuedā¦
6
ā¢ Intensity of fluorescence is inversely proportional to the
increasing of temperature.
ā¢ So,increasing temp. leads to increase collision of molecule
decrease FI.
ā¢ decreasing temp. leads to decrease collision of molecule
increase FI.
Effect of Temperature
Increasing temp. ļµ
š
šš°
7. ā¢ Oxygen decreases the fluorescence intensity by oxidises
fluorescent substance to non-fluorescent substance.
Continuedā¦
7
Effect of Oxygen
Effect of PH
ļ± PH depends on chemical structure of molecule.
Phenol:-
Acidic
condition
undissociated NO FI
Alkaline
condition dissociated FI
9. Continuedā¦ 9
Nature of Substituent group
Electron donating group like NH2 , OH
Enhance Fluorescence Intensity
Electron withdrawing group like NO2 , COOH
Reduces Fluorescence Intensity
10. Continuedā¦
ā¢ Fluoroscence Intensity is directly proportional to concentration
of substance.But, this is true in low conc. (ļ¼50 ļg/ml).But in
high conc. (ļ¾50 ļg/ml) it does not obey linearity.
Effect of Concentration
11. Continuedā¦
ā¢ Presence of other solutes in solution which are non
fluorescent can also affect fluorescent intensity by the so
called inner filter effect.
Inner Filter Effect
Viscosity
FI
Collisions
Viscosity
12. Conclusion
ā¢ Fluorometry is a quantitative analysis technique.
ā¢ Several factors affects the intensity of fluorescence among
them conc. Plays vital role.According to BEERāS law firstly
it shows linear curve that means direct proportional but after
certain conc. It shows deviation that times increasing conc.
Canāt increase the FI.
13. References
ļ¶ Sharma Y R. Elementary organic spectroscopy. 16th ed . s chand
&company Ltd. New dellli 2007.
ļ¶ Gurudeep R chatwalSham K .lnstrumental method chemical analysis . 5th
ed. Himalaya publishing house. Mumbai 2002 p .2.399-2.41 G.
ļ¶ Ravi Sankar . Text boook Of pharmaceutical analysis .3'd ed. Rx publica
tion. 2006.
ļ¶ http,//images.google.co.in/imghp?oe-Ć¼ff-8&hI-en&tab-wi&q-fluorescence
ļ¶ httpt//www.bertholdtech.com/ww/en pub/bioanalytik/biomethods/fluor.cfm