Add to ORKGABSTRACT Sacrificial bonds and hidden length in structural molecules and composites have been found to greatly increase the fracture toughness of biomaterials by providing a reversible, molecular-scale energy-dissipation mechanism. This mechanism relies on the energy, of order 100 eV, needed to reduce entropy and increase enthalpy as molecular segments are stretched after being released by the breaking of weak bonds, called sacrificial bonds. This energy is relatively large compared to the energy needed to break the polymer backbone, of order a few eV. In many biological cases, the breaking of sacrificial bonds has been found to be reversible, thereby additionally providing a ‘‘self-healing’ ’ property to the material. Due to the nanoscopic...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
Abstract Single-molecule force spectroscopy allows investigation of the effect of mechanical force ...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...
AbstractSacrificial bonds and hidden length in structural molecules and composites have been found t...
ABSTRACT Sacrificial bonds and hidden length in structural molecules and composites have been found ...
Sacrificial bonds and hidden length in structural molecules and composites have been found to greatl...
Sacrificial bonds have been observed in several biological materials and structures and can increase...
We investigate the entropic force-elongation behavior of a polymer chain in the presence of the sacr...
International audienceSacrificial bonds and hidden length confer on hard and dry natural materials, ...
We present here the measurement of the single-polymer entropic elasticity and the single covalent bo...
Traditionally, adhesion interactions have been studied in reversible equilibrium conditions. Howeve...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
For thousands of years, nature has selected and perfected the conformation foldings of its molecular...
Traditionally, adhesion interactions have been studied in reversible equilibrium conditions. Howeve...
The past years have witnessed remarkable advances in our use of atomic force microscopy (AFM) for st...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
Abstract Single-molecule force spectroscopy allows investigation of the effect of mechanical force ...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...
AbstractSacrificial bonds and hidden length in structural molecules and composites have been found t...
ABSTRACT Sacrificial bonds and hidden length in structural molecules and composites have been found ...
Sacrificial bonds and hidden length in structural molecules and composites have been found to greatl...
Sacrificial bonds have been observed in several biological materials and structures and can increase...
We investigate the entropic force-elongation behavior of a polymer chain in the presence of the sacr...
International audienceSacrificial bonds and hidden length confer on hard and dry natural materials, ...
We present here the measurement of the single-polymer entropic elasticity and the single covalent bo...
Traditionally, adhesion interactions have been studied in reversible equilibrium conditions. Howeve...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
For thousands of years, nature has selected and perfected the conformation foldings of its molecular...
Traditionally, adhesion interactions have been studied in reversible equilibrium conditions. Howeve...
The past years have witnessed remarkable advances in our use of atomic force microscopy (AFM) for st...
The atomic force microscope (AFM) is able to manipulate biomolecules and their complexes with exquis...
Abstract Single-molecule force spectroscopy allows investigation of the effect of mechanical force ...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...