Glasses of small organic molecules are a ubiquitous material type of wide interest due to their unique amorphous packings. However, their properties can vary widely based on preparation method, aging time, or type of molecule. Stable glasses, prepared via physical vapor-deposition, have been shown to exhibit properties equivalent to those that been aged for thousands of years. Molecular dynamics simulations of coarse-grained molecules provide a simple model for closely examining the relevant properties of glasses, both traditionally liquid-quenched and vapor-deposited. In this dissertation, several projects are presented focusing on systematic changes to inter-molecular interactions and intra-molecular degrees of freedom and how they impact...
When we cool down a liquid below the melting temperature, it can either crystallize or become superc...
textSoft particle glasses like microgels and compressed emulsions are densely packed, disordered sus...
International audienceFinite shear elasticity has been identified at low gap in the liquid state of ...
Glasses of small organic molecules are a ubiquitous material type of wide interest due to their uniq...
The existence of nanometer-sized amorphous material (glasses) is ubiquitous and plays a crucial role...
Glasses formed by physical vapor deposition (PVD) are an interesting new class of materials, exhibit...
Nanometer-scaled thin films of molecular glasses have been widely applied in photovoltaics, organic ...
Nanometer-sized thin films of small organic molecules are widely used in applications ranging from o...
The homogeneous structure, and inherent tunability, of molecular glasses makes them particularly int...
The existence of nanometer-sized amorphous material (glasses) is ubiquitous and plays a crucial role...
Stable glasses can be made through physical vapor deposition when certain deposition conditions are ...
Disordered materials surround us in our daily lives from glasses and plastics to sandcastles and mud...
Glasses obtained from vapor deposition on a cold substrate have superior thermodynamic and kinetic s...
NSERCPeer ReviewedThe origin of the exceptional stability of molecular glasses grown by physical vap...
The research described in the present thesis is about glassy phenomena and mechanical properties in ...
When we cool down a liquid below the melting temperature, it can either crystallize or become superc...
textSoft particle glasses like microgels and compressed emulsions are densely packed, disordered sus...
International audienceFinite shear elasticity has been identified at low gap in the liquid state of ...
Glasses of small organic molecules are a ubiquitous material type of wide interest due to their uniq...
The existence of nanometer-sized amorphous material (glasses) is ubiquitous and plays a crucial role...
Glasses formed by physical vapor deposition (PVD) are an interesting new class of materials, exhibit...
Nanometer-scaled thin films of molecular glasses have been widely applied in photovoltaics, organic ...
Nanometer-sized thin films of small organic molecules are widely used in applications ranging from o...
The homogeneous structure, and inherent tunability, of molecular glasses makes them particularly int...
The existence of nanometer-sized amorphous material (glasses) is ubiquitous and plays a crucial role...
Stable glasses can be made through physical vapor deposition when certain deposition conditions are ...
Disordered materials surround us in our daily lives from glasses and plastics to sandcastles and mud...
Glasses obtained from vapor deposition on a cold substrate have superior thermodynamic and kinetic s...
NSERCPeer ReviewedThe origin of the exceptional stability of molecular glasses grown by physical vap...
The research described in the present thesis is about glassy phenomena and mechanical properties in ...
When we cool down a liquid below the melting temperature, it can either crystallize or become superc...
textSoft particle glasses like microgels and compressed emulsions are densely packed, disordered sus...
International audienceFinite shear elasticity has been identified at low gap in the liquid state of ...