From LC/MS to HPLC to Gas chromatography, Fisher Chemical offers a broad portfolio of high-purity solvents, solvent blends and additives specially designed and manufactured for use in chromatography applications.

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New Specification: Optima LC/MS Now Optimized for UHPLC-UV Applications

  • Optimized for UHPLC-UV. Novel gradient elution test in the full UV range (200-400 nm) ensures extremely low levels of UV-absorbing impurities
  • Sub-micron filtration of Optima™ LC/MS solvents prolongs the life and effectiveness of UHPLC components, such as inlet filters, check valves and seals, injectors, and columns by reducing instrument downtime and maintenance cost
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Histology, an essential tool of biology and medicine, is the study of the microscopic anatomy of cells and tissues. Fisher Scientific offers a wide range of chemicals and reagents, including histology-grade solvents, designed specifically for medical laboratory professionals.

All Fisher Scientific chemicals undergo rigorous quality assurance and testing procedures. Additional benefits of choosing the Fisher Scientific brand include:

  • Histology-grade solvents available in F-style poly bottle
  • High-purity Optima-grade solvents available in Safe-Cote bottles
  • Solvents filtered to remove particulates

Browse Histology Products

Let Fisher Scientific help you find everything you need for use in your histology applications. Explore products by technical procedure:



In the fixation stage, a fixative is used to modify tissue by stabilizing the protein, so it is resistant to further changes; thus, fixatives are used to protect tissue from degradation and to maintain the structure of the cells, including sub-cellular components, such as cell organelles (nucleus, endoplasmic reticulum and mitochondria).

Key Products

  • 10% neutral buffered formalin
  • Formaldehyde, 37%
  • Formaldehyde, 10%
  • Formalde-fresh solution (low-odor 10% formalin)


Extensive line of common fixatives.

"Use tested" by an independent histology lab.



In the processing stage, tissues must go through a dehydration process to replace water with the material that will be used for embedding, so the tissue samples adhere to the embedding material. The most common technique is paraffin wax embedding.

Samples are immersed in multiple baths of progressively more concentrated ethanol to remove water from the tissues, followed by a clearing agent, such as xylene, to remove the alcohol and finally hot molten paraffin wax, which replaces the xylene and infiltrates the tissue.

Key Products

TissuePrep™ paraffin wax

Solvents (xylene, acetone, methanol, 2-propanol, isopropanol, toluene, tetrahydrofuran)

Reagent alcohol (ethanol)


Various ease of use packaging configurations are available including FisherLOCK tamper-evident caps, EcoSafPak shipper and F-style bottles. These are specially filtered for use in histology applications.



In the embedding process, tissue samples and liquid embedding material are placed into molds and allowed to harden. The hardened blocks containing the tissue samples are then ready to be sectioned. Embedding can also be accomplished using frozen, non-fixed tissue in a water-based medium, usually a water-based glycol or resin.

Key Products

  • TissuePrep™ embedding media
  • Permount
  • Cal-Ex™ decalcifying solution
  • HistoPrep™ mold release spray


Superior embedding compounds for sectioning of tissues for M.P. 56° - 57°C and 55° - 57°C



In the sectioning phase, the tissue is sliced into very thin (0.5 - 10 microns; 1000 microns = 1mm) sections using a microtome. These slices, usually thinner than the average cell, are then placed on a glass slide for staining. Frozen tissue embedded in a freezing medium is cut on a microtome in a cryostat.

Key Products

  • Microtomes
  • Glass slides
  • Cryostats



Routine staining is done to give contrast to the tissue being examined. Hematoxylin and Eosin (H&E) are the most commonly used stains in histology.

Hematoxylin is combined with a metal mordant, such as aluminum, and the hematoxylin-aluminum complex is used to stain cell nuclei blue/black.

Eosin is the most widely used counterstain in the routine staining of tissue sections. The best staining with eosin occurs at pH 4.5 to 5, and when used properly, at least three shades of pink can be obtained. Erythrocytes, collagen and the cytoplasm of epithelial or muscle cells should stain different shades of pink when using eosin.