Olis Modernized Aminco™ DW-2 & DW-2000 Spectrophotometers

Olis-modernized Aminco DW-2

Olis-modernized Aminco DW-2000

The technique of dual wavelength spectrophotometry was first developed in 1951 by Dr. Britton Chance who is famous for the pioneering study of ATP synthesis in mitochondria. The Aminco DW-2 and DW-2000 instruments are direct descendents of the original Aminco-Chance dual wavelength spectrophotometer. Investigators working on cytochrome, mitochondria, plant and tissue suspensions, and other particulate samples have trusted the Aminco DW-2 and DW-2000 to produce accurate absorbance readings on their samples for decades.

Turbid samples have large backgrounds which make obtaining accurate absorbance readings very difficult. The more turbid the sample, the more incorrect the answer obtained by an ordinary spectrophotometer will be. And, one cannot know that the results are incorrect with the ordinary spectrophotometer without further quantitative measurements.

With a scattering sample, the measuring light is deflected (scattered) away from the detector, so close positioning of a detector to the sample is critical. Most absorbance spectrophotometers use small face detectors positioned many centimeters from the sample. The DW-2/2000 uses a large face detector a few millimeters from the sample.

However, the "DW-2" gets its name from its more obvious difference from normal spectrophotometers: its use of two monochromators to produce a reference wavelength which is subtracted from the (artificially high) absorbance returned by the sample.

The monochromator is motorized, so that it can scan wavelengths. This "Mono 1" is used to scan the spectrum of interest, i.e. 520  580 nm. "Mono 2" is set to the reference wavelength. When the difference between the returned values is taken, one has a "difference spectrum" which is as close to "correct" as one can obtain from a scattering sample. (One is still contending with two effects: the reference beam is not at the same wavelength as the measuring beam, and, without extraordinary measures, one cannot collect all the scattered light and, therefore, cannot get a perfect answer.)

When the absorbance value is calculated using the Mono 2 reference, in effect, one produces a "Difference Spectrum".

Download the DW-2 Booklet.

Click here to view the Olis DW-2/2000 Product Specification Sheet.

Read a detailed explanation of the DW-2 modernization process.

Read comments from some of the owners of the Olis DW-2 Upgrade.

List of owners of DW-2 Olis Upgrades.

Technical specifications for the DW-2.

The Peltier Twin Cell Holder for the Olis® DW-2 Upgrade

Data from Olis DW-2, plotted with same sample from Olis® RSM 1000