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AFM White Papers
Resonant Probe AFM: Uses and Advantages
A resonant probe atomic force microscope (AFM) offers capabilities and benefits not found in commonly used optical deflection AFMs in the measurement of physical constants, physical properties, and surface morphology. This article discusses resonant probe AFM construction, functionality. Some of the applications particularly well suited to resonant probe AFM are optical antenna properties, quantum materials (NV center research), and terahertz microscopy/spectroscopy.
Principles of Scanning Nitrogen-Vacancy Magnetometry Explained
Scanning nitrogen-vacancy (NV) magnetometry is a measurement technique that combines scanned probe microscopy (SPM) with optically detected magnetic resonance (ODMR) to image magnetic field distribution with high spatial resolution (<50 nm). This...
Positioning at the Nanoscale (and Below): Trust in Proven Performance
Through a deep knowledge of sensing technologies, technically adept personnel, and experience across applications as diverse as astronomy to live cell imaging, Mad City Labs helps our customers develop cost-effective and high-performance solutions....
Near-Field Scanning Optical Microscopes: Capabilities and Applications
NSOM techniques and instrumentation have evolved to become vital tools for material characterization, providing high-quality data and continually expanding utility, spot-on accuracy, adaptability, and exceptionally high definition. This article...
Atomic Force Microscopy Enhances the Nanoscopy Toolkit
Imaging and morphology represent a critical puzzle piece when trying to understand nanoscale structures, whether they are naturally occurring, such as viruses, or engineered structures, such as nano-antennas and photonic devices. In addition to...
Building a DIY Atomic Force Microscope
Atomic force microscopes (AFM) are often seen as out of reach for many scientists with limited budgets. But they are useful and versatile tools for characterizing surfaces, mapping out morphology, and studying the behavior of tiny structures that...
Combining the MicroTime 200 with the Bruker BioScope Catalyst AFM for Multiparameter Cell Imaging
Combining atomic force microscopy (AFM) with single-molecule-sensitive fluorescence microscopy grants fascinating insights into the structure and interactions in cells. The AFM part reveals structural information of macromolecular complexes, while...
(7 results found)
May 2024
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