There is another way to investigate the domain of the very small: an atomic force microscope. Unlike their electron spewing brothers, they don’t require high voltages or hard vacuums.

Protein translocation is an essential, nano-scale dynamic process that facilitates the movement of proteins across cellular ...

One of the most important acronyms in nanotechnology is AFM – Atomic Force Microscopy. This instrument has become the most widely used tool for imaging, measuring and manipulating matter at the ...

[Andres] is working with an Atomic Force Microscope, a device that drags a small needle across a surface to produce an image with incredible resolution. The AFM can produce native .STL files ...

An atomic force microscope uses a cantilever with a sharp ... was surprised that they could clearly image the five rings, the bonds between atoms and even the carbon-hydrogen bonds.

The scanning tunneling microscope, which Binnig had co-invented 4 years earlier, provided atomic resolution without the need for ultra-low temperatures. But it relied on an electric current flowing ...

such as the breaking of a chemical bond. "For the first time, we are able to attain attosecond temporal resolution with our ...

Atomic force microscopy (AFM) is a way to investigate the surface features of some materials. It works by “feeling” or “touching” the surface with an extremely small probe. This provides a ...

The Agilent 5500 AFM/SPM microscope offers numerous unique features ... facilitates advanced applications solutions. It offers atomic resolution and is ideal for electrochemistry, polymers ...

The Agilent 5500 inverted light microscope (ILM) system combines the power of a high-resolution atomic force microscope with the direct optical viewing capability of an inverted optical microscope.

The tip's position is meticulously adjusted using piezoelectric controls to maintain a constant tunneling current, allowing the device to image surfaces with atomic precision. Scanning Tunneling ...