Add to ORKGNanoparticle packings have potential uses in new nanoscale devices including in optics, electronics, and biomedicine. Of particular significance to the design of these new devices is a thorough characterization of the mechanical behavior of nanoparticle packings. Previous work demonstrates that disordered materials undergo a jamming transition, where particles become fixed in place due to compressive loading. This transition has been reported as a strong function of density, stress, and temperature. Atomic force microscopy-based nanoindentation experiments were performed on disordered nanoparticle packings to determine the mechanical behavior of these material systems. Specifically, the plastic deformation and failure of disordered nanopart...
International audienceCoalescence during drying of suspensions containing glassy polymer nanoparticl...
The dynamic failure of nanostructured materials is considered. Both metallic and ceramic nanostructu...
A special mechanics/material phenomenon involving nanocomposites is the agglomeration of nanofillers...
Understanding the plastic deformation mechanisms of disordered materials is a longstanding and compl...
Understanding the plastic deformation mechanisms of disordered materials is a longstanding and compl...
Nanoindentation experiments on disordered nanoparticle packings performed both in an atomic force mi...
Atomic force microscopy-based nanoindentation is used to image and probe the local mechanical proper...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Nanoscale polymer films have numerous potential applications such as protective coatings, flexible ...
University of Minnesota Ph.D. dissertation. May 2011. Major: Material Science and Engineering. Advis...
This letter reports the application of ultrasonic force microscopy (UFM) to investigate subsurface f...
International audienceThis chapter focuses on the nanoindentation of nanoparticles. It presents the ...
For atomic thin films, lattice mismatch during heteroepitaxy leads to an accumulation of strain ener...
For atomic thin films, lattice mismatch during heteroepitaxy leads to an accumulation of strain ener...
The mechanical behavior of nanoparticles governs their performance and stability in many application...
International audienceCoalescence during drying of suspensions containing glassy polymer nanoparticl...
The dynamic failure of nanostructured materials is considered. Both metallic and ceramic nanostructu...
A special mechanics/material phenomenon involving nanocomposites is the agglomeration of nanofillers...
Understanding the plastic deformation mechanisms of disordered materials is a longstanding and compl...
Understanding the plastic deformation mechanisms of disordered materials is a longstanding and compl...
Nanoindentation experiments on disordered nanoparticle packings performed both in an atomic force mi...
Atomic force microscopy-based nanoindentation is used to image and probe the local mechanical proper...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Nanoscale polymer films have numerous potential applications such as protective coatings, flexible ...
University of Minnesota Ph.D. dissertation. May 2011. Major: Material Science and Engineering. Advis...
This letter reports the application of ultrasonic force microscopy (UFM) to investigate subsurface f...
International audienceThis chapter focuses on the nanoindentation of nanoparticles. It presents the ...
For atomic thin films, lattice mismatch during heteroepitaxy leads to an accumulation of strain ener...
For atomic thin films, lattice mismatch during heteroepitaxy leads to an accumulation of strain ener...
The mechanical behavior of nanoparticles governs their performance and stability in many application...
International audienceCoalescence during drying of suspensions containing glassy polymer nanoparticl...
The dynamic failure of nanostructured materials is considered. Both metallic and ceramic nanostructu...
A special mechanics/material phenomenon involving nanocomposites is the agglomeration of nanofillers...