textWith advancements in computer technology and processing power, the ability to examine chemical systems using theory continues to be more practicable. Using ab initio methods, such as density functional theory, we are now able to routinely simulate hundreds of atoms. This system size allows us to directly simulate surfaces and nano-materials that are industrially relevant. With the expansion of accessible systems comes the opportunity to develop new computational methods to extract their chemical properties. Of particular interest is bridging the time scale gap between simulation and experiment. The evolution of a system chemical in time can be directly simulated using classical dynamics, however, molecules vibrate on the order of f...
The increasing computing power and the algorithmic improvements in quantum chemistry have been accel...
Computer-based and theoretical approaches to chemical problems can provide atomistic understanding o...
Recent success of advanced computational chemistry, in example for the prediction of chemical reacti...
textWith advancements in computer technology and processing power, the ability to examine chemical ...
Thesis (Ph.D.)--University of Washington, 2015The study of chemical reactions is a foundation of che...
The introduction of the modern computer has been a boon to myriad scientific communities. Scientific e...
The interpolation technique has shown many promises for simulating chemical dynamics with quantum ch...
Sampling potential energy surfaces (PES) is pivotal for understanding chemical structure, energetics...
Sampling potential energy surfaces (PES) is pivotal for understanding chemical structure, energetics...
The purpose of this research was the development and application of theoretical/computational method...
Molecular dynamics is a general technique for simulating the time-dependent properties of molecules ...
Due to the inherent need for atomic-scale resolution, reaction mechanisms have -for the longest time...
Molecular dynamics is a general technique for simulating the time-dependent properties of molecules ...
The accuracy of a quantum chemical calculation inherently depends on the ability to account for the ...
Ab initio quantum chemistry seeks to describe and elucidate chemical species and processes using qua...
The increasing computing power and the algorithmic improvements in quantum chemistry have been accel...
Computer-based and theoretical approaches to chemical problems can provide atomistic understanding o...
Recent success of advanced computational chemistry, in example for the prediction of chemical reacti...
textWith advancements in computer technology and processing power, the ability to examine chemical ...
Thesis (Ph.D.)--University of Washington, 2015The study of chemical reactions is a foundation of che...
The introduction of the modern computer has been a boon to myriad scientific communities. Scientific e...
The interpolation technique has shown many promises for simulating chemical dynamics with quantum ch...
Sampling potential energy surfaces (PES) is pivotal for understanding chemical structure, energetics...
Sampling potential energy surfaces (PES) is pivotal for understanding chemical structure, energetics...
The purpose of this research was the development and application of theoretical/computational method...
Molecular dynamics is a general technique for simulating the time-dependent properties of molecules ...
Due to the inherent need for atomic-scale resolution, reaction mechanisms have -for the longest time...
Molecular dynamics is a general technique for simulating the time-dependent properties of molecules ...
The accuracy of a quantum chemical calculation inherently depends on the ability to account for the ...
Ab initio quantum chemistry seeks to describe and elucidate chemical species and processes using qua...
The increasing computing power and the algorithmic improvements in quantum chemistry have been accel...
Computer-based and theoretical approaches to chemical problems can provide atomistic understanding o...
Recent success of advanced computational chemistry, in example for the prediction of chemical reacti...
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