Relationship between A(OD) and %T Transmittance, T = P / P 0 % Transmittance, %T = 100 T Absorbance, A = log 10 P 0 / P A = log 10 1 / T A = log 10 100.

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Presentation transcript:

Relationship between A(OD) and %T Transmittance, T = P / P 0 % Transmittance, %T = 100 T Absorbance, A = log 10 P 0 / P A = log 10 1 / T A = log / %T A = 2 - log 10 %T

Beer Lamert’s Law

Reflection

Light scattering

reflection scattering For Solution: Scattering  1/ 4

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Prism Diffraction grating

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Single Beam - Spectrophotometer

Dual Beam - Spectrophotometer

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NanoDrop

Bradford Assay

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The excitation and emission spectra of a fluorophore and the correlation between the excitation amplitude and the emission intensity. General diagram of the excitation and emission spectra for a fluorophore (left). The intensity of the emitted light (Em1 and Em2) is directly proportional to the energy required to excite a fluorophore at any excitation wavelength (Ex1 and Ex2, respectively; right).

The Stokes shift of the excitation and emission spectra of a fluorophore. Fluorophores with greater Stokes shifts (left) show clear distinction between excitation and emission light in a sample, while fluorophores with smaller Stokes shifts (right) exhibit greater background signal because of the smaller difference between excitation and emission wavelengths.

reflection Emission scattering Exitation

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