Add to ORKGNanoindentation of biological cells and thin biomembranes has been demonstrated to be an effective means for measuring and understanding the mechanical behavoir of these bio-entities with relatively small dimensions and unusual mechanical properties. Several new and variant indentation techniques have been developed recently. New solid mechanics modules spanning multi-scale indentation deformation are constructed to analyse the force-displacement data so that the quantitative materials parameters can be found
The fundamental contact mechanics principles underlying nanoindentation testing techniques are revie...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
Abstract A biomaterial is a material used and adapted for medical applications. In order to extend ...
Nanoindentation is ideal for the characterization of inhomogeneous biological materials. However, th...
Nanoindentation techniques, with high spatial resolution and force sensitivity, have recently been m...
Nanoindentation techniques have recently been adapted for the study of biological materials. This fe...
This Special Issue "Advanced Nanoindentation in Materials" contains some of the latest developments ...
The term ‘biological material’ includes many meanings, and here it means materials that constitute l...
International audienceQuantifying cell mechanical properties is of interest to better understand bot...
Understanding mechanical properties of biomaterials is essential for an efficient design and manufac...
International audienceStructural and mechanical mapping at the nanoscale by novel high-speed multipa...
Small scale mechanical deformations have gained a significant interest over the past few decades, dr...
Atomic force microscopy (AFM) indentation has become an important technique for quantifying the mech...
Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...
The fundamental contact mechanics principles underlying nanoindentation testing techniques are revie...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
Abstract A biomaterial is a material used and adapted for medical applications. In order to extend ...
Nanoindentation is ideal for the characterization of inhomogeneous biological materials. However, th...
Nanoindentation techniques, with high spatial resolution and force sensitivity, have recently been m...
Nanoindentation techniques have recently been adapted for the study of biological materials. This fe...
This Special Issue "Advanced Nanoindentation in Materials" contains some of the latest developments ...
The term ‘biological material’ includes many meanings, and here it means materials that constitute l...
International audienceQuantifying cell mechanical properties is of interest to better understand bot...
Understanding mechanical properties of biomaterials is essential for an efficient design and manufac...
International audienceStructural and mechanical mapping at the nanoscale by novel high-speed multipa...
Small scale mechanical deformations have gained a significant interest over the past few decades, dr...
Atomic force microscopy (AFM) indentation has become an important technique for quantifying the mech...
Nanoindentation refers to a class of experimental techniques where a micrometric force probe is used...
The fundamental contact mechanics principles underlying nanoindentation testing techniques are revie...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...
Atomic force microscopy is being increasingly used to explore the physical properties of biological ...