DNA has been used in vitro as a computational substrate due to programmable base-pairing interactions. This allows the construction of logic gates, self-assembled shapes, motors, walkers and other nanoscale devices comprised of DNA strands. These strands must be carefully designed in order to correctly perform their function, which requires effective models of the DNA system. The thermodynamics of multiple interacting DNA strands is a well-studied model which can make equilibrium predictions on these systems, but many devices operate far from equilibrium. The prediction of large non-equilibrium systems requires the simulation of a kinetics model, as these are both stochastic and computationally difficult to solve in an exact form. We develo...
Thesis (Ed.D.)--University of Washington, 2020At the nanoscale, the ability to control spatio-tempor...
DNA is not only among the most important molecules in life, but a meeting point for biology, physics...
As an engineering material, DNA is well suited for the construction of biochemical circuits and syst...
DNA nanotechnology is an emerging field which utilizes the unique structural properties of nucleic a...
Polynomial time dynamic programming algorithms play a crucial role in the design, analysis and engin...
Nucleic acid molecules are vital constituents of living beings. These molecules are also utilized f...
DNA nanotechnology has been a rapidly growing field with many applications in drug delivery, energy,...
Nucleic acid kinetic simulators aim to predict the kinetics of interacting nucleic acid strands. Man...
Nucleic acid strands, which react by forming and breaking Watson-Crick base pairs, can be designed t...
Efficient and useful simulations for problem solving in self-assembly of nanostructures require repr...
Over the last century, the silicon revolution has enabled us to build faster, smaller and more sophi...
Models of nucleic acid thermal stability are calibrated to a wide range of experimental observations...
Abstract reaction event that occurs in the system, the accuracy of the method comes at a high comput...
DNA nanotechnology is a rapidly developing field that creates nanoscale devices from DNA, which enab...
In this paper we give an overview of some very recent work on the stochastic simulation of systems i...
Thesis (Ed.D.)--University of Washington, 2020At the nanoscale, the ability to control spatio-tempor...
DNA is not only among the most important molecules in life, but a meeting point for biology, physics...
As an engineering material, DNA is well suited for the construction of biochemical circuits and syst...
DNA nanotechnology is an emerging field which utilizes the unique structural properties of nucleic a...
Polynomial time dynamic programming algorithms play a crucial role in the design, analysis and engin...
Nucleic acid molecules are vital constituents of living beings. These molecules are also utilized f...
DNA nanotechnology has been a rapidly growing field with many applications in drug delivery, energy,...
Nucleic acid kinetic simulators aim to predict the kinetics of interacting nucleic acid strands. Man...
Nucleic acid strands, which react by forming and breaking Watson-Crick base pairs, can be designed t...
Efficient and useful simulations for problem solving in self-assembly of nanostructures require repr...
Over the last century, the silicon revolution has enabled us to build faster, smaller and more sophi...
Models of nucleic acid thermal stability are calibrated to a wide range of experimental observations...
Abstract reaction event that occurs in the system, the accuracy of the method comes at a high comput...
DNA nanotechnology is a rapidly developing field that creates nanoscale devices from DNA, which enab...
In this paper we give an overview of some very recent work on the stochastic simulation of systems i...
Thesis (Ed.D.)--University of Washington, 2020At the nanoscale, the ability to control spatio-tempor...
DNA is not only among the most important molecules in life, but a meeting point for biology, physics...
As an engineering material, DNA is well suited for the construction of biochemical circuits and syst...