CC1 Week5_LEC PDF

Summary

This document covers the principles of colorimetry and spectrophotometry, discussing different types of measurements, light sources, and detectors. It details the use of various techniques to measure light intensity, and to interpret the results.

Full Transcript

Graph- wavelength
Number of waves- frequency

Visible region: most analytes measures/ falls
Nominal- peak transmittance (light
here
passes thru sample)
○ Wavelength adjustments
depend on the region of
analytes. Even “slight error”
(cause significant error in
“absorbance readings”)
Wavelength accuracy: “actual
wavelength” passes thru
(transmittance) thru
“monochromator”
Didymium/ Holmium oxide filter-
No need to compute rather just representation to used to “calibrate/check…” & control
their relationship (WAVELENGTH accuracy)
NOTE: Neutral density filters &
Wave frequency “inversely related” to dichromate solution- certifies
wavelength & energy (ABSORBANCE Accuracy on
Wavelength “directly proportional” to linearity or “Correct reading”)
energy
PRINCIPLES: ○ Darkly colored sample-high
turbid/high
concentration=”low
transmitted/passedlight”
○ Light colored/ low
concentration= “higher light
transmittance”

Colorimetry- color involved w/c “color”
(effect on the sample reading)
AKA: Photoelectric colorimetry
-measure “light intensity” w/o
consider wavelength
-Primary used (spectro/filter
photomet): Isolation “discreet Absorbance/Optical density
portion of spectrum” Mathematically derived “%Transmittance”
2 TYPES of Measurement: It presented w/ “3 Formula (machine is the
Spectro- narrow wavelength (either one compute): (abc, 2-log%T & -logT)”
UV region, visible/IR) NOTE:
Photometric- light intensity only Medtech determine in lab
NOTE: Similarity of (Concentration of
photoelectric/colorimetry: Sample (absorbed unknown-derived from
light) “Cu/concentration of unknown
formula”)
○ Au & As (computed by
machine)
○ Cs (medtech)

1. Spectrophotometry-measure “light
transmitted (light passes thru
sample)
Follows: (Beer’s law)
Also “computed by machine”
 a. Single spectro- simple (ONE
measurement= ONE wavelength
NOTE: Absorption maximum (must “known
Blank/ clear solution: Light pass in advance”)
thru “completely” or 100%
Transmittance/T

b. Double beam spectro- “splits”
BLANKING Technique- Any reading must
minochrom light in 2 components:
do the this technique
1 beam (sample)
Used to check the absorbance
Other beam (reference
See if “spectrophotometer is
sol’n/ blank- needed to
working properly”
“corrects” (variation in light
Ultracentrifuge- used if it is not
source intensity)
effective specially if its too turbid
NOTE: Adsorption must recorded “directly”
Turbidity causes: lipids/fats
as electrical output of beam
2 TYPES of Double Beam:
b.1 Double beam (In SPACE)-uses
“2 Photodetectors”
1 photodetec (sample), Other
(reference beam)
b.2: Double beam (In TIME)- uses “1
Photodetector”(alternate pass to
“chopper/rotating mirror”)
 ○ Give “accurate absorbance”:
light intensity must be
“LINEAR/ 1 direction only”
(light intensity increase=
increase absorbance din)
2 TYPES of Light/Radiant source:

6 components of BOTH “Single/ Double
beam”

Light source→Display
Ex: of “Single Beam Spectrophotometer”
Alternatives (if no tungsten available)

a. Continuum source- flexible but the
change must still be “linear”

Light/radiance source- provide b. Line source- “limited”
type of light: “Polychromatic light”
 -widely used in AAS/Atomic
Absorption Spectro, molecular &
flourescent…

3. Monochromator- bandpass (isolate
the indiv wavelength)
2 TYPES:

a. Filters-simple
Disadvantage: bandpass has
2. Entrance slit- stray light (outside the “wind band” & “low
band e w/c “not originate” transmittance”
(polychromatic light source) Made by: semi-transparent
Stray light-most common silver films (Magnesium
cause of “loss of linearity” fluoride)
w/c to prevent must have **Interference filters- produces “mono/1
“entrance slit” light”
b. Prisms- narrow beam light= shorter
wavelength refracted 4. Exit slit- more selection
-can be “rotated” w/c better to use Required: bandpass “less than ⅕”
compare to filter the natural bandpass
Better if “narrow bandpass”

c. Diffractions gratings- COMMON
used
-has “parallel grooves”
Principle: wavelengths “bend” as 5. Cubet/ Absorption cell/Analytical cell/
they “pass” (sharp corner) sample cell
Function: holds the solution
d. Holographic “gratings”- more TYPES/KINDS:
expensive a. Alumina (common used)
b. Quartz/Plastic- for “visible & UV
spectra”
c. Borosilicate
d. Soft glass
 TYPES/ KINDS:

NOTE:
Cuvet w/ scratches (discarded)
a. Photocell…- disadvantage: tempt
Silica cuvette effective at a
sensitive & requires “no external
“wavelength” (>220 nm)
voltage source”
Alkaline sol’n (not left standing in
Convert energy via “internal
cuvet for “prolonged periods”)
electron transfer”
Path of “Cuvet length”: 1 cm BUT
NOT Require (EXTERNAL
“smaller path” (used in automated
Voltage)
systems)
Increase sensitivity: 10 cm
Increase absorbance: factor of 10

6. Photodetector- “detects & converts”
Endpoint: Sample must “convert into
energy”

NOTE: If light pass thru anode it will
converted to energy
b. Phototube- contains (cathode &
anode)
REQUIRES (EXTERNAL
Voltage)
 7. Meter/ Read out device- “displays” the
“result of readings”
Color absorbed (seen in “Naked
eye”)- sample’s color/ end color
Complementary color (machine
reads)- if you run in “machine”

c. PMT- COMMON used,
Most “sensitive”
Advantage: detect “very low
level light” (even if highly
concentrated, possible to
convert pa rin)
Measures: Visible & UV light
Disadvantage: limited to “low
power radiation” Ex: serum- add diff. Reagent then end color
NOTE: PMT should “never” exposed to is “violet”:
ROOM Light -Wavelength (350-430 nm) then run in
machine w/c recognized as “Yellow-blue”

d. Photodiode- Not as sensitive BUT
“Excellent Linearity”
Useful: Simultaneous
multichannel detector
 Requires: Indirect Internal Standard
(Lithium/ cesium)
Application: measures “Excited ions”
(Electrolytes: sodium, potassium,
fluoride, calcium & magnesium)
Flickering light= changes in the fuel
reading

NOTES:
Higher molecular/ ions type= higher
concentration…
Turbid- “Blue region” w/c more
turbid= bluer
Absorbance check: use “Glass
filters”
Determination of “linearity”: Used
“Optical filters”

3. AAS- measured light absorbed by
“atoms”
Principle: Element is “not
excited/exit” BUT “dissociated” from
its chem bond

AAS Consists of the ff:(Atomizer,
chopper-modulate/controls,
anthanum-reduce interferences due to
chem bond created by “phosphate” )
2. Flame emission photometry
-excitation of electrons from “lower to
higher” by “burning it in the flame”
Volumetric- used specifically for “Chloride &
Calcium test”

Nephelometry- measures “antigen-antibody”
(Serology)
Turbidimetry- measurement of abundant Scattered light (must be measured)
“Large particles (Proteins) & bacterial Antigen-antibody complexes have
suspensions” ○ diameter: 250-1500 nm
Principle: Highly turbid, it will ○ Wavelength: 320-650 nm
“blocked” to reduce the light W/c these diameter & wavelength
○ Blocked/ reduced light (must “produced” (forward “rayleigh-debye type”)
be measured) PMT is the detector
Amount of turbidimetry depends:
Concentration & size
Electrophoresis- separation of “charged
particles” based on “electric field”
Acid/ basis (determines the net
charge of protein)
Anion/ negative charge- only moves
with this neg charge towards
“anode/positive charge”
NOTE: Using the “Buffer barbital/veronal” it
gives 8.6 pH (requirements of the protein to
be negative charge)

Isoelectric focusing- adjust the pH to
migrate

Capillary electro- uses “Electrical &
Osmosis”
 Positively charge- emerge early &
EOF and ion movements are in
“same directions”
Negatively charged- specimen move
“towards capillary outlet” BUT
“slower rate”

Separate “soluble components” w/c
migration/separation depends on
“physical/chemical characteristics”
2 FORMS:
b. Column-use for separation of
“steroids, barbitu, blood, alcohol &
lipids”
Elution order “based” (boiling
point)

a. Planar- perform separation on “flat
surface”
i. Paper chromo- uses
“Whatman paper” for
(fractionation of sugar & If tandem sila
amino acid) Endpoint: Fingerprint patterns are created=
ii. TLC- gives you presence of metabolites
“semiquantitative/value” for
drug screening test
Drug extraction: pH
“dependent”
 1 monochromator- absorb
wavelength
2nd monochromator- prevent “entry
of incident light”
Disadvantage: Affected by “quenching” (loss
of fluorescent/radiation)

Involatile- cannot be converts by GC-MS

Chemiluminescence- NOT involved
(Energy) rather only (Chem/
electrochemical reactions)
Principle: Chem reaction produces
“light” then produce “emission” (must
be measured)

Fluorometry- using “radiation” (excites the
molecules) to produce “light”
Osmolality depends on: Colligative Determines: difference in voltage…
properties Uses/Application: pH & pCO2 test

Osmolality “Increases”

Ion selective electrode uses the
“potentiometry”
-Not specific (depends on “voltage
differences”)
NOTE: membrane used:
Sodium- glass membrane electrode
Potassium- liquid membrane +
valinomycin
Chloride- Silver membrane
Among the 4 colligative properties, electrode
“freezing point” (one being used)

Endpoint is detected by “amperometry”
Interferences (must not have/not seen in the
sample dapat because it will contaminate)