Spectrophotometry.pptx

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SPECTROPHOTOME
TRY
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INTRO
It is known that a particular substance, owing to its
molecular structure, will only absorb light of certain
wavelengths and reflect or transmit the rest. Chlorophyll,
for instance, absorbs a significant amount of red light but
not green light, which is transmitted back; chlorophyll-
bearing plants therefore appear green (assuming, of
course, that other pigments are absent or are in
negligible amounts).
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INTRO
Note further that though two substances may absorb
light of the same wavelengths, it is very probable that
their absorption of such light will be in different degrees,
because of intrinsic variation in molecular structure.
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INTRO
On these facts lie the basis of spectrophotometry, a
technique of prime importance in biochemical analysis.
Spectrophotometry is the quantitative measurement of
the absorption and transmission of light by a solution. If
the solutions being spectrophotometrically determined
are colored, the technique is alternatively referred to as
colorimetry.
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ABSORPTION SPECTRUM

A particular substance may be characterized by a graph
showing the amount of light it absorbs (absorbance) at
different wavelengths. This is known as the absorption
spectrum of the compound. As an example, Figure 23-
represents the absorption spectrum of riboflavin.
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ABSORPTION
SPECTRUM
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STANDARD CURVE
A standard curve is a graph indicating the amount of light absorbed by
different known concentrations of a substance. Ideally linear, it may
then be used to determine the unknown concentration of a compound
by first measuring the absorbance of the unknown at the wavelength
used in preparing the standard curve. The concentration is interpolated
from the standard curve using the absorb-ance of the unknown.
However, a more accurate way of determining the unknown
concentration would be through the use of the Lambert-Beer Law
equation.
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LAMBERT-BEER LAW
Lambert-Beer Law derivation helps us define the relationship
between the intensity of visible UV radiation and the exact
quantity of substance present. The derivation of Beer-
Lambert Law has many applications in modern-day science.
Used in modern-day labs for testing of medicines, organic
chemistry and tests with quantification. These are some
fields in which this law finds its uses.
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LAMBERT-BEER LAW
The Lambert-Beer law states that:

for a given material sample path length
and concentration of the sample are
directly proportional to the absorbance
of the light.
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SPECTROPHOTOMETER
The instrument, which measures the absorption or
transmission of light by a solution, is called a
spectrophotometer.
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SPECTROPHOTOMETER
In place of a monochromator and a selector, some colorimeters use
filters. Appropriate filters absorb those wavelengths of light ordinarily
transmitted by the solution while at the same time permitting those
wavelengths of light, which are maximally absorbed by the solution to
pass through the filter and strike the solution. The percent change in the
amount of transmitted or absorbed light caused by a given change in
concentration of the solution is thus made maximal; needless to say, this
increases the sensitivity of colorimetric measurements.
Two different sizes of cuvette used in a spectrophotometer
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SPECTROPHOTOMETER
Spectrometers are generally classified based on the wavelength of light
the source is. There are two main classifications:

UV-Vis Spectrophotometer: The UV-Vis spectrophotometer is
commonly referred to as just ‘UV-Vis’. This instrument measures
absorbance in the ultraviolet and visible range. Generally, that means
200 nm – 700 nm.

IR Spectrophotometer: The IR spectrophotometer measures samples
using infrared light, 700-15000 nm.
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SPECTROPHOTOMETER
Applications

Some of the major applications of spectrophotometers include the
following:
Detection of concentration of substances
Detection of impurities
Structure elucidation of organic compounds
Monitoring dissolved oxygen content in freshwater and marine
ecosystems
Characterization of proteins
Detection of functional groups
Respiratory gas analysis in hospitals
Molecular weight determination of compounds
The visible and UV spectrophotometer may be used to identify classes of
compounds in both the pure state and in biological preparations.