UV-Vis Absorbance Spectroscopy
About
Absorbance Spectroscopy
Varian Cary 50
8 Genesys 10 UV
Hewlett Packard 8451A Diode Array
Hitachi U-3110 Double Beam
2 Ocean Optics Miniature Spectrometers
8 Classic Spectronic 20s
Applications
About UV-Vis Molecular Absorbance Spectroscopy
In molecular absorbance
spectroscopy a beam of ultraviolet or visible light is directed through a
sample. Some of the light may be transmitted through the sample. Light that
was not transmitted through the sample was absorbed.
Transmittance (T) is defined as the ratio of P/Po.
Absorbance (A) is defined as -log(T).
A molecule can absorb some of the light only if it can accomodate that additional energy by promoting electrons to higher energy levels. The energy of the light being absorbed must match the energy required to promote the electron. Therefore, not all wavelengths of light are absorbed equally by a sample. An absorbance spectrum depicts what wavelengths of light are absorbed by a sample. The UV-Vis absorbance spectrum below was obtained by passing different wavelengths of light through a solution of fabric dye, and measuring the intensity of light (P) passing through the solution. One can readliy see what wavelengths of light are absorbed (peaks), and what wavelenghts of light are transmitted (troughs).
One very important relationship in absorbance spectroscopy is Beer's Law:
A=abc
where: A is absorbance
a describes the ability of a molecule to absorb radiation at a particular
wavelength
b is the length of sample through which the light beam passes
c is the concnetration of the absorbing species
This relationship is the basis of all quantitative work in absorbance spectroscopy. It allows one to determine the concentration of an absorbing species simply by measuring its absorbance.
The Cary 50 design is simple, yet elegant. Its fast-scanning monochromator collects spectra in seconds, and the Xe flash lamp is pulsed to avoid interference from room light. The Cary 50 is controlled by intuitive software which allows students who are unfamiliar with spectrophotometers to begin collecting data without extensive software training.
We have purchased several accessories for use with this instrumen t that include a peltier thermostatted cell holder to rapidly change sample temperature between 0 to 100 oC, sample temperature probes to accurately determine the temperature of the sample inside the cuvette, and a stopped flow (rapid kinetics) accessory to measure kinetics of fast reactions (less than a second).
www.thermo.com
Genesys 10 UV Spectrophotometers
We have a fleet of 8 Genesys 10 UV spectrophotometers that are used in a variety of laboratory courses throughout the chemistry curriculum. These UV-Vis spectrophotometers are rugged, user-friendly, have a small footprint, and are great for quantitative work and kinetics at a single wavelength.
Hewlett Packard 8451A Diode Array
Diode array spectrometers contain thousands of individual photodetectors enabling them to measure the intensity at many wavelengths simultaneously. Absorbance spectra can be obtained in a fraction of a second, and several wavelengths of light can be monitored simultaneously during kinetic experiments. This particular diode array spectrometer has an extremely rugged optical bench (only one moving part), and has been in operation at KU since the mid 1980's.
Hitachi U-3110 Double Beam Spectrophotometer
Double beam spectrophotometers split the light beam into two paths. One path passes through the sample, and the other path passes through a blank. A spectrophotometric blank is basically everything that is in the sample except the component you are trying to measure. With the double beam approach P and Po are measured at the same time (or nearly so), which corrects for a variation in lamp intensity or drift in instrument electronics.This instrument was obtained from a generous donation from Air Products and Chemicals, Inc.
Ocean Optics Miniature Spectrophotometers
Ocean Optics has taken the lead in miniaturizing diode array spectrometers. By using the diode array approach, there are no moving parts in the spectrometer. Fiber optic cables are used to take light from the source to the sample, and from the sampe to the detector. These are versatile instruments that can be configured to apply to a variety of sampling situations.
Spec 20's have been around since the 1960s, and we have a few of those. These spectrometers are rugged, rudamentary, reasonably priced, visible spectrometers. It is because of these qualities that I am not surprised to see Spec 20s still in use in many educational and industrial labs. The 8 Spec 20s we have are all operational. One of them has undergone a solid-state upgrade, and is fitted with a digital display. We have a box of spare vacuum tubes, light bulbs, and detectors to keep them going well into the next decade.
Applications of UV-Vis Molecular Absorbance Spectroscopy
Quantitative analysis
of all molecules that absorb light
Disruption of DNA double helix
Molecular temperature probes
Determination of equilibrium constants
Enzyme Kinetics
Analysis of mixtures of absorbing species
UV-VIS absorption as a diagnostic for NO in rocket plumes
Analysis of foods
Monitor ozone depletion
Determination of micelle structure
Drug dissolution
Spectral analysis of paintings
Art resoration / color matching
Light harvesting for solar energy
Determining wavelength response of fish eyes - Absorption spectra of retinal
pigments
Links to Molecular UV-Vis Sites
Several Vendors of UV-Vis Spectrophotometers
Varian,
Inc.
http://www.varianinc.com/
Agilent
http://www.chem.agilent.com/scripts/PHome.asp
Ocean
Optics
http://www.oceanoptics.com/
Hitachi
High-Technologies
http://www.hitachi-hitec.com/science/english/product/list/index_uv.html
UV-Vis Resources
Basic
UV-Vis Theory, Concepts and Applications
http://www.thermo.com/eThermo/CMA/PDFs/Articles/articlesFile_12067.pdf
Bunsen
Learner (University of Edinburgh)
http://www.chem.ed.ac.uk/bunsen/analysis/uvvis.html
