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Microplate reader spectrophotometer. The Beer-Lambert Law A=abc Now let us look at the Beer-Lambert law and explore it's significance. A is absorbance.

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Presentation on theme: "Microplate reader spectrophotometer. The Beer-Lambert Law A=abc Now let us look at the Beer-Lambert law and explore it's significance. A is absorbance."— Presentation transcript:

1 Microplate reader spectrophotometer

2 The Beer-Lambert Law A=abc Now let us look at the Beer-Lambert law and explore it's significance. A is absorbance (no units) “a” is the molar absorbtivity with units of L mol -1 cm -1 “b” is the path length of the sample - that is, the path length of the cuvette (cm) “c” is the concentration of the compound in solution, expressed in mol L-1

3 Light Source: Must be able to generate many wavelengths. The light goes through a monochromator excitation filter to make the light beam a single wavelength.

4 Absorbance or transmittance can be measured with a microplate reader. Sample: The sample is in a microplate which is transparent to the light. This means only the sample interacts with the single wavelength of light. Detector: The detector is a photoelectric cell. When light strikes the detector, a flow of electrons (a current) is created in the detector. The current generated is proportional to the light intensity. The detector functions as a result of the light transmitted through the emission filter.

5 Example: The absorbance maxima of DNA is at 260 nm. This is what we would set our reader at.

6 The absorbance maxima of this substance is 300nm. This is the wavelength that the microplate reader should be set at. You should know this ahead of time!

7 The Absorbance Maxima for Food Coloring

8 The Whole Process

9 Using a Spectrophotometer

10 Light Source: Must be able to generate many wavelengths. The light goes through a monochromator excitation filter to make the light beam a single wavelength.

11 Absorbance or transmittance can be measured with a spectrophotometer. Sample: The sample is in a cuvette which is transparent to the light. This means only the sample interacts with the single wavelength of light. Detector: The detector is a photoelectric cell. When light strikes the detector, a flow of electrons (a current) is created in the detector. The current generated is proportional to the light intensity. The detector functions as a result of the light transmitted through the emission filter. Readings are absorbance or transmittance.

12 Example: The absorbance maxima of DNA is at 260 nm. This is what we would set our reader at.

13 The Absorbance Maxima for Food Coloring

14

15

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