Add to ORKGSingle molecule force spectroscopy is an important technique to determine the interaction forces between biomolecules. Atomic force microscopy (AFM) is one of the tools used for this purpose. So far, AFMs usually use cantilevers as the force sensors and piezoelectrics as the actuators which may have some drawbacks in terms of speed and noise. In this research, a micromachined membrane actuator was used in two important types of experiments, namely the single molecule pulling and force-clamp based force spectroscopy. These two methods permit a more direct way of probing the forces of biomolecules, giving a detailed insight into binding potentials, and allowing the detection of discrete unbinding forces. To improve the quality of the...
The atomic force microscope (AFM) provides a powerful instrument for investigating and manipulating ...
Mechanical forces have been observed to affect various aspects of life, for example, cell differenti...
A complex array of intermolecular forces controls the interactions between and within biological mol...
The authors describe a method for biomolecular force clamp measurements using atomic force microscop...
Atomic force microscopy (AFM)-based dynamic force spectroscopy of single molecular interactions invo...
Abstract—A micromachined polymer membrane-based active probe has been developed for biomolecular for...
We report for the first time on a novel Atomic Force Microscopy (AFM) technique with dual actuation ...
We report a modular atomic force microscope (AFM) design for biomolecular experiments. The AFM head ...
A micromachined polymer membrane-based active probe has been developed for biomolecular force spectr...
The Atomic Force Microscope (AFM) is a 20 years old instrument that has proven valuable for the ultr...
International audienceThe mechanical properties of cells and of subcellular components are important...
Since its invention in 1986, the atomic force microscopes (AFMs) have been powerful tools for the ch...
Since its invention in 1986, the atomic force microscopes (AFMs) have been powerful tools for the ch...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
Many reports have witnessed the potential of the atomic force microscope as a force sensor for probi...
The atomic force microscope (AFM) provides a powerful instrument for investigating and manipulating ...
Mechanical forces have been observed to affect various aspects of life, for example, cell differenti...
A complex array of intermolecular forces controls the interactions between and within biological mol...
The authors describe a method for biomolecular force clamp measurements using atomic force microscop...
Atomic force microscopy (AFM)-based dynamic force spectroscopy of single molecular interactions invo...
Abstract—A micromachined polymer membrane-based active probe has been developed for biomolecular for...
We report for the first time on a novel Atomic Force Microscopy (AFM) technique with dual actuation ...
We report a modular atomic force microscope (AFM) design for biomolecular experiments. The AFM head ...
A micromachined polymer membrane-based active probe has been developed for biomolecular force spectr...
The Atomic Force Microscope (AFM) is a 20 years old instrument that has proven valuable for the ultr...
International audienceThe mechanical properties of cells and of subcellular components are important...
Since its invention in 1986, the atomic force microscopes (AFMs) have been powerful tools for the ch...
Since its invention in 1986, the atomic force microscopes (AFMs) have been powerful tools for the ch...
Optical microscopy uses the interactions between light and materials to provide images of the micros...
Many reports have witnessed the potential of the atomic force microscope as a force sensor for probi...
The atomic force microscope (AFM) provides a powerful instrument for investigating and manipulating ...
Mechanical forces have been observed to affect various aspects of life, for example, cell differenti...
A complex array of intermolecular forces controls the interactions between and within biological mol...