Add to ORKGAtomic force microscopy (AFM) is a nanoscale characterization technique that at its most basic level employs a nanometer-scale probe tip to physically trace a surface, generating a topographical map of the sample. However AFM has many applications beyond topography, including nanomechanical property analysis via cantilevered nanoindentation. In this project, tipless AFM probes functionalized with a 10 µm diameter glass bead have been used to measure the elastic modulus of live multipotent stromal stem cell nuclei before and after vibration treatments and/or structural component knockouts. The goal of these nanoindentation measurements of nuclear stiffness is to gain a better understanding of how mesenchymal stem cells respond to mechanical ...
The aim of this study was to obtain nanomechanical properties of living cells focusing on human amni...
Biosensors are aimed at detecting tiny physical and chemical stimuli in biological systems. Physical...
Atomic Force Microscopy (AFM) has a great potential as a tool to characterize me-chanical and morpho...
The advent of atomic force microscopy (AFM) provides a powerful tool for investigating the behaviors...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
The behavior and mechanical properties of cells are strongly dependent on the biochemical and biomec...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
An atomic force microscope (AFM) fundamentally measures the interaction between a nanoscale AFM prob...
Mechanobiological sensing brings together biology, physics, medicine and engineering, thus helps to ...
Stem cells are cells characterized by their ability to differentiate into multiple types of cells. T...
The atomic force microscope (AFM) is a probe-based microscope that uses nanoscale and structural ima...
Cells and tissues continuously experience mechanical loading during daily activity. However, the mec...
Nanomechanics of cytoskeleton is deeply involved in physiology and regulation of cell behavior. Atom...
AbstractBiology and cellular mechanics have benefited from recent technological advances in physics ...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
The aim of this study was to obtain nanomechanical properties of living cells focusing on human amni...
Biosensors are aimed at detecting tiny physical and chemical stimuli in biological systems. Physical...
Atomic Force Microscopy (AFM) has a great potential as a tool to characterize me-chanical and morpho...
The advent of atomic force microscopy (AFM) provides a powerful tool for investigating the behaviors...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
The behavior and mechanical properties of cells are strongly dependent on the biochemical and biomec...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
An atomic force microscope (AFM) fundamentally measures the interaction between a nanoscale AFM prob...
Mechanobiological sensing brings together biology, physics, medicine and engineering, thus helps to ...
Stem cells are cells characterized by their ability to differentiate into multiple types of cells. T...
The atomic force microscope (AFM) is a probe-based microscope that uses nanoscale and structural ima...
Cells and tissues continuously experience mechanical loading during daily activity. However, the mec...
Nanomechanics of cytoskeleton is deeply involved in physiology and regulation of cell behavior. Atom...
AbstractBiology and cellular mechanics have benefited from recent technological advances in physics ...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
The aim of this study was to obtain nanomechanical properties of living cells focusing on human amni...
Biosensors are aimed at detecting tiny physical and chemical stimuli in biological systems. Physical...
Atomic Force Microscopy (AFM) has a great potential as a tool to characterize me-chanical and morpho...