Spectrophotometry and photometry
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Transcript of Spectrophotometry and photometry
Prof. of Clinical Chemistry, Mansoura University
Most methods in clinical chemistry are based on quantitative measurement of a coloured compound produced when a sample containing the substance to be measured is mixed with appropriate reagents and subjected to certain reaction conditions. The radiation most often employed in photometric analysis has the following wave lengths .
White light can be dispersed into its constituent wave lengths by being refracted through a glass prism or a diffraction grating Anatural dispersion of light occurs when a rainbow is formed with the light from the sun being dispersed into its various colours by the rain drops from acloud.If a solution absorbs light completely it appears completely black but if a solution absorbs only part of the light energy passing through it, it will appear coloured so a solution of haemoglobin appears to be red because it absorbs blue green light and transmitts the complementary colour of red.
The ability of a substance to absorb selectively certain wave lengths of light while transmiting others is determined by the molecular and atomic structure of the substance.The wave length of choice is generally the one at which the greatest absorbance occurs.
Absorptivity constant: This depends upon: The wave length of the radiation.The nature of the absorbing material.It is reasonabe that a more concentrated solution or longer light path should absorb more light since in either case there are more light absorbing molecules placed in the path of light .A cromophore exhibits the complementary colour to that which it absorbs i-e-a yellow component appears yellow because it absorbs blue light. Thus it must be estimated in the blue region of the spectrum.
Photometric measurements measure Light intensity without Consideration to wavelength.To isolate a narrow range of the incident wave length use:Filters ( photometer ) prisim or gratings ( spectrophotometer ) Electromagnetic radiation is photons of energy packets travelling in waves Electromagnetic radiation includes radian energy from short wavelength ( x rays , 6 rays )to long wavelength (radio) waves, Visible ligh falls in between
Light: radiant energy with wavelength visible to the human eye and with wavelength bordering on those visible to the human eye ( 380-750nm ).Energy (E) is inversely proportional to the wavelength.UV rays with short has energy more than the infrared (< 380 E > 750 nm E ).A wave length of light is defined as the distance ( ) peaks as the light is envisioned to travel in a wave like manner.
The distanace ( ) peaks in the UV and visible is measeured in Angstroms (Ao), nanometers (nm) or millimicrons (mu):There are 1010 Ao, 109 nm , or 109 mu in 1 meter (SI unit is nm = 10 A = 1 mu) Radient energy that passes through an object will be parlially Reflected Absorbed And transmitted Beers law The concentration of a substance is directly proportional to the amount of Light absorbed or inversely proportional to the Logarithm of the transmitted Light.
(A) % of original incident light transmitted by equal layers of light-absorbing solution; (B) % Tversus concentration on linear graph paper (C) % Tversus concentration on semilog graph paper; (D) A versus concentration on linear graph paper.
Absorbance (A) = Extinction (E) Extinction coefficient (EC ): is the extinction measured with a light path 1 cm long. specific ( EC ) : is that measured with a light 1 cm long and concentration of 1% Molecular ( EC ) : is the extinction measured with a light path 1 cm long and a concentration of a gram molecule per litre ( molar Absorpitivity )
Components of spectrophotometer
(1) Light source Range of spectrum Stability of radiant energy Temperature A ) Visible region :Tungesten lamp and quartz halogen (320- 1000 nm).Suitable for moderatly dilute soln = colour changes significantly with change in concentration Operate for 2000-5000 hr 15% visible + mostly near infraredQuartz: withstand higher temp.Aheat absorbed filter,between sample and the lamp to absorb the infrared is used.
B) U.V : Low pressure mercury vapour lamp:Used at certain wavelength emits a sharp. Line spectrum with both uv and visible lines - medium and high pressure mercury lamp emits from uv to mid visible region.Hydrogen and deuterium lamps (200-400nm): Provide continous spectra Deuterium :More stable Longer half life than hydrogen lamp
C) Laser source To obtain an intense , narrow wavelength ligh source The technique of light Amplification by Stimulated Emission of Radiation (LASER ) is tried to be used .Certain material has the capability of absorbing energy excited state when change to low energy level (decay) emitte light (highly quantified light) Different materials to give different wavelengths (e.g argon 488 - 568 nm.)
(2) MonochromatorsIsolalation of part of the spectrum (individual wavelength of light ) depend on: Monochromator. Width of entrance and exit slits.(a) Filters : The spectral purity of a filter or other monochromat or is described in term of its spectral bandwidth:B.W is measured in nm at a point equal to one half the peak transmitance of the spectral transmittance curve The use of high intensity light favors the use of narrow bandpass interference filters .
(i) Transmission absorption filter : colored- glass filters coloured gelatin sandwiched between two glass platesinexpensive simple not precise (ii) Interference filters: used to obtain spectral purity and to eleminate the harmonic wave lengths it can be constructed to pass a very narrow range of wavelength with good efficiency
(b) Prism: glass prism for visibl.quartez prism for uv.short wave refracted more than the long. (c) Diffraction gratings : most common many parrallel grooves on polished surface ( e.g alloy of alum . copper on flat galass plate ) diffract the light = seprate it into component wavelengths (wavelengths are bent as they pass a sharp corner ) because the multiple spectra cause stray Light, accessory filters are used provide much narrower wavelength than the filters.the spectrum or plate is moved so that only the specific wave length band desired pass only through the slit .
Fiber optics = Light pipes are a bundles of thin transparent fibers of glass, quartz or plastic enclosed within material of a lower refractive index, transmit light throughout their lengths by internal reflection. Adv.: better directional control and single beam multiplexity . Disadv: stray light and solarization (loss of energy and decreased optical sensitivity.
(3) Cuvets (cell) :Glass or plastic ( 320 1000 nm )Silica ( quartz ) ( below 320 nm ) May be square or round The square is better because of : flat surface to light ( no reflection or refraction) easier to line up the same side The cuvet must be: Optically clear. No scratching on the surface to avoid scattering of light Clean in soln of: conc HCL: water: ethanol (1 : 3 : 4 ), or distilled water. Avoid hot acids or alkalies. Optical bath 1cm macrocuvet , microcuvet , flow through.
(4) Photodetectors : To convert the transmitted radiant energy into an equivalent amount of electrical energy
a) Photocell or barrier Layercell : The least expensive .Composed of: film of light sensitive material on plate of iron (selenium ) thin transparent layer of silver over the light sensitive material Light excitation of the electrons on the light sensitive material which release and flow to the highly conductive silver where electromotive force can be measured used in filter photometers with a wide band pass producing high level of illumination so that there is no need to amplify the signal - temp sensitive and non linear
b) phototube : Outside voltage is required for operation Cathod composed of rubiduim or lithium which emit electrons when exposed to light c) Photomultiplier ( PM ) tube: Detect and ampilify radiant energy Light stricks coated cathode ,whichs absorbs light and emit electrons Attrating to a series of anodes (dynodes ) which composed of material give off many secondary electrons(multiple cascade of electrons) current signal measured in ampers.200 times more sensitive than the phototube Extremly sensitive to very low light levels and short duration light flashes .
d) photodiode : produces current proportonal to the incident radient power. the cell put before the gratting used where light is adequate photodiode array (PDA ) detectors are available in integrated circiuts containing 256 to 2048 photodiodes in a linear arrange ment Each photodiode responds to a specific wavelength and so complete uv / visible spectrum can be obtained in one second has excellent linearity , speed ,small size
5- Galvanometer : Direct reading Ampilified reading Digital Microprocessor Future instruments 1-Thermo Lens effect Laser heating refractive index change of the soln This thermolens effect can be extremely sensitive as an absorption detector 2- Piezelectric detector : Absorption of energy gas volume changes or slight temp changes sensed by membrane current or potential generating device.
Types of spectrophotometers Single beam sp . Double beam sp:
All the compenents are duplicated except the light source and the meter. In the single beam instrument any alteration in wavelength of the beam will necessitate readjustment of the output device to zero absorption for the blank solution before an absorption on the sample is possible. This requirement is no longer present for the double beam instrument which permits automatic change of wave length and continuous display