The HRIF contains several advanced, digital, fluorescence and light Microscopes which can be used to image cells and tissue. The Light microscopes are ideal for imaging cells and tissue that have ...

The polarized diSPIM microscope, which can image full 3D orientation and position of molecules in cells. The instrument was constructed in the Hari Shroff lab at the National Institute of Biomedical ...

A device that can convert a smartphone or tablet into a fluorescence microscope for less than US $50 is presented in a proof-of-principle study in Scientific Reports. The authors suggest that the ...

Stanford researchers have developed a microscope that can show how nanostructures interact inside living cells at the highest ...

Using a tiny, spherical glass lens sandwiched between two brass plates, the 17th-century Dutch microscopist Antonie van Leeuwenhoek was the first to officially describe red blood cells and sperm cells ...

This novel hybrid microscope allows for the simultaneous imaging of the full 3D orientation and position of molecules within cells. Researchers from the Marine Biological Laboratory (MA, USA) have ...

Overcoming the resolution limit in a light microscope of around half a wavelength of light (about 250 nanometers) is one of the most significant developments in optics. Due to the wave nature of light ...

The brain is the most energy-demanding organ in the body, in part due to its complexity. Its components are varied and intricate: comprising different cell types, including neurons designed to ...

The ONI Nanoimager is an advanced super-resolution fluorescence microscopy platform designed for quantitative, nanoscale imaging of fixed and live biological samples. It enables localization-based ...