To ensure that the tissue structures of biological samples are easily recognizable under the electron microscope, they are ...

Fluorescence Microscopy allows specimens to be studied with high sensitivity and specificity through the use of light. It works on the principle that energy emitted by certain types of materials can ...

Figure 1: Flowchart showing the overview of skeletal tissue processing and imaging protocol. We use 4% (wt/vol) paraformaldehyde (PFA) solution to achieve fixation of bone samples. For the long bones, ...

Flow cytometry is a single cell technology that utilizes lasers and fluorescence (in most cases) to study the gene expression profile and function of cells. The power of flow cytometry is its ability ...

Microscopes have revolutionized the practice of science, especially in the fields of biology and medicine. Just a few hundred years ago, gaining the ability to study what was previously unobservable ...

Atomic force microscopy (AFM) is a very popular analysis tool for 3D surface topology visualization and other measurements on a wide range of materials at nanoscales ...

Microscopy existed prior to flow cytometry and was an integral part of its development. A fluorescent microscope, in simple terms, is an enhanced light microscope which uses a light of higher ...

Left, a tissue sample dyed by traditional methods. Centre, a computed stain created from infrared–optical hybrid imaging. Right, tissue types identified with infrared data; the pink in this image ...