Add to ORKGContinuum models in computational material science require the choice of a surface energy function, based on properties of the material of interest. This work shows how to use atomistic bond-counting models and crystal geometry to inform this choice. We will examine some of the difficulties that arise in the comparison between these models due to differing types of truncation. New crystal geometry methods are required when considering materials with non-Bravais lattice structure, resulting in a multi-valued surface energy. These methods will then be presented in the context of the two-dimensional material graphene in a way that correctly predicts its equilibrium shape
THESIS 11405Over the past two decades, there has been great interest in the discovery and research o...
A new relationship between the relative surface free energy and the surface structure of a cubic mat...
When applied to catalysis and related materials phenomena, grain boundary (GB) engineering optimizes...
Continuum models in computational material science require the choice of a surface energy function, ...
We investigate some connections between the continuum and atomistic descriptions of de- formable cry...
We present a detailed description of equivalent crystal theory focusing on its application to the st...
We study the influence of edge energy anisotropy on the morphology of crystal surfaces in non-equili...
We develop an explicit model for the interfacial energy in crystals that emphasizes the geometric or...
Nanoscale patterning of materials at scales of less than 20nm remains a challenging problem. Standar...
Two-dimensionally extended amorphous carbon ("amorphous graphene") is a prototype system for disorde...
Lattice defects are inevitably present in two-dimensional materials, with direct implications on the...
It has been well-established that interfaces in crystalline materials are key players in the mechani...
Lattice defects are inevitably present in two-dimensional materials, with direct implications on the...
<p>The subject of this thesis is investigation of the morphology of a crystal surface by means of st...
We report the status of a high-statistics Monte Carlo simulation of non-self-avoiding crystalline su...
THESIS 11405Over the past two decades, there has been great interest in the discovery and research o...
A new relationship between the relative surface free energy and the surface structure of a cubic mat...
When applied to catalysis and related materials phenomena, grain boundary (GB) engineering optimizes...
Continuum models in computational material science require the choice of a surface energy function, ...
We investigate some connections between the continuum and atomistic descriptions of de- formable cry...
We present a detailed description of equivalent crystal theory focusing on its application to the st...
We study the influence of edge energy anisotropy on the morphology of crystal surfaces in non-equili...
We develop an explicit model for the interfacial energy in crystals that emphasizes the geometric or...
Nanoscale patterning of materials at scales of less than 20nm remains a challenging problem. Standar...
Two-dimensionally extended amorphous carbon ("amorphous graphene") is a prototype system for disorde...
Lattice defects are inevitably present in two-dimensional materials, with direct implications on the...
It has been well-established that interfaces in crystalline materials are key players in the mechani...
Lattice defects are inevitably present in two-dimensional materials, with direct implications on the...
<p>The subject of this thesis is investigation of the morphology of a crystal surface by means of st...
We report the status of a high-statistics Monte Carlo simulation of non-self-avoiding crystalline su...
THESIS 11405Over the past two decades, there has been great interest in the discovery and research o...
A new relationship between the relative surface free energy and the surface structure of a cubic mat...
When applied to catalysis and related materials phenomena, grain boundary (GB) engineering optimizes...