Absorption Characteristics of Stains for Black & White Photomicrography

The absorption and transmission characteristics of Kodak Wratten filters are published in the Kodak Photographic Filters Handbook (Publication No. B-3), which includes tabulations of spectral data at various wavelengths. A typical visible light absorption spectrum for one of these filters, the Wratten number 34a, is illustrated in Figure 1. In this figure, absorption (diffuse density) is plotted as a function of wavelength from 300 to 700 nanometers.

The 34a filter has a strong absorption band at 370 nanometers, in the ultraviolet region of the spectrum, and another centered at 560 nanometers in the green-yellow transition region of the visible spectrum. This filter passes or transmits wavelengths whose diffuse density is less than 0.1, so the wavelength ranges transmitted by the 34a filter are 410 to 470 nanometers (blue light) and 660 to 700 nanometers (red light).

The transmission bands of filters are conveniently represented as a bar graph, such as the one illustrated in Figure 2. The darker areas represent regions of transmission by the filter that exceed 10 percent, and the lighter areas represent wavelengths blocked by the filter. This type of graph provides a simple index for comparing a set of filters to quickly determine the suitable filter for any particular application.

A compilation of bar charts for the common Kodak Wratten color filters are listed in Table 1. Use this table as a reference in choosing filters to enhance contrast in stained specimens using black & white photomicrography.

The absorption and transmission characteristics of common biological stains are published in the Sigma-Aldrich Handbook of Stains, Dyes, and Indicators and H. J. Conn's Biological Stains, which include actual spectroscopic data for hundreds of dyes. Typical visible light absorption spectra for red (Congo Red), green (Malachite Green), and blue (Methylene Blue) dyes are presented in Figure 1. In this figure, absorption (diffuse density) is plotted as a function of wavelength from 300 to 700 nanometers.

Congo Red has a strong absorption band at 340 nanometers in the near-ultraviolet region and another at 500 nanometers near the blue-green transition region. This dye transmits red wavelengths above 560 nanometers and thus, appears red to the eye. Appearing visually as a green dye, Malachite Green has a strong absorption band centered at 600 nanometers near the yellow-red transition region, with a wide transmission band (passing blue and green light) between 400 and 550 nanometers. Methylene blue has a strong absorption band centered at 660 nanometers, in the red region of the visible spectrum, and transmits wavelengths below 600 nanometers, bestowing a blue color to the dye.

When the diffuse density (absorption) by a stain exceeds 0.1, the wavelength band falling within the region greater than 0.1 is considered absorbed. This can conveniently be represented as a bar graph, such as the ones illustrated in Figure 2. The darker areas represent regions of absorption by the dyes that exceed a diffuse density of 0.1, and the lighter areas represent wavelengths passed (not absorbed) by the dye. This type of graph provides a simple index for comparing a set of dyes to quickly determine the suitable dye for any particular staining application.

A compilation of bar charts for the common biological stains are listed in Table 1. Use this table as a reference in choosing dyes to stain biological specimens for photomicrography using black & white film.

SPECTRAL ABSORPTION CHARACTERISTICS OF COMMON BIOLOGICAL STAINS
Stain Spectral Absorption
Acid Fuchsin
530-560
Aniline Blue
550-620
Azure B
580+
Azure C
580-640
Basic Fuchsin
520-570
Brilliant Cresyl Blue
550+
Carmine
500-570
Congo Red
400-560
Crystal Violet
550-610
Darrow Red
450-550
Eosin Y
490-530
Erythrosin B
510-540
Ethyl Eosin
530-550
Fast Green
560+
Giemsa
500+
Light Green SF
590+
Luxol Fast Blue
500-640
Methyl Green
560+
Methylene Blue
590+
Neutral Red
480-570
Nigrosin
450+
Nuclear Fast Red
460-550
Orange G
450-510
Orcein
500-620
Phloxine B
520+
Prussian Blue
560+
Pyronin B
510-560
Saffron
350-480
Safranin O
470-550
Sudan IV
470-580
Sudan Red
450-590
Tartrazine
400-460
Toluidine Blue
560+
Trypan Blue
500+
Wright's
500+
Nanometers 400 500 600
< Ultraviolet Infrared >
Table 1

Contributing Authors

Mortimer Abramowitz - Olympus America, Inc., Two Corporate Center Drive., Melville, New York, 11747.

Michael W. Davidson - National High Magnetic Field Laboratory, 1800 East Paul Dirac Dr., The Florida State University, Tallahassee, Florida, 32310.