The world of nanoscale analysis has been revolutionized by the advent of electrical Atomic Force Microscopy (AFM) modes. New possibilities for measuring electrical properties with remarkable precision ...

AFM differs significantly from traditional microscopy techniques as it does not project light or electrons on the sample's surface to create its image. Instead, AFM utilizes a sharp probe while ...

Atomic Force Microscopy (AFM) has evolved into a central technique in nanotechnology, providing three-dimensional imaging and precise measurements at the atomic scale. Its ability to probe surfaces by ...

When it comes to analyzing living cells, challenging biological samples and thick, multilayer tissue samples require purposefully designed instrumentation. BioAFMs are ideal when it comes to these ...

Invented 30 years ago, the atomic force microscope has been a major driver of nanotechnology, ranging from atomic-scale imaging to its latest applications in manipulating individual molecules, ...

First invented in 1985 by IBM in Zurich, Atomic Force Microscopy (AFM) is a scanning probe technique for imaging. It involves a nanoscopic tip attached to a microscopic, flexible cantilever, which is ...

Anyone who has ever taken the time to critically examine a walnut knows that a two-dimensional photograph fails in many respects to truly convey the unique features--the nicks, crannies, valleys, and ...

Fluidic force microscopy (FluidFM) is a cutting-edge technique that integrates atomic force microscopy (AFM) with nanofluidics, enabling simultaneous imaging and manipulation of biological samples at ...

Recognition of the crucial role that nanomechanical properties play in the structure and function of biological systems is growing steadily. Atomic force microscopy (AFM), a high-resolution surface ...

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Atomic force microscopy (AFM) is a high-resolution imaging technique that generates 3D images of sample surfaces and characterizes their nanomechanical properties. AFM can be used for several ...