Molecular biology provides an inspiring proof-of-principle that chemical systems can store and process information to direct molecular activities such as the fabrication of complex structures from molecular components. To develop information-based chemistry as a technology for programming matter to function in ways not seen in biological systems, it is necessary to understand how molecular interactions can encode and execute algorithms. The self-assembly of relatively simple units into complex products is particularly well suited for such investigations. Theory that combines mathematical tiling and statistical–mechanical models of molecular crystallization has shown that algorithmic behaviour can be embedded within molecular self-assembly p...
In this paper we report the design and synthesis of DNA molecules (referred to as DNA tiles) with ...
Algorithmic self-assembly, a generalization of crystal growth processes, has been proposed as a mech...
Approaches to DNA-based computing by self-assembly require the use of D. T A nanostructures, called...
Molecular biology provides an inspiring proof-of-principle that chemical systems can store and proc...
Biology makes things far smaller and more complex than anything produced by human engineering. The b...
Algorithms and information, fundamental to technological and biological organization, are also an es...
Bottom-up fabrication of nanoscale structures relies on chemical processes to direct self-assembly. ...
Information and algorithms appear to be central to biological organization and processes, from the ...
A major challenge in practical DNA tile self-assembly is the minimization of errors. Using the kinet...
Molecular biology provides an inspiring proof-of-principle that chemical systems can store and proce...
Copying and counting are useful primitive operations for computation and construction. We have made ...
While biology demonstrates that molecules can reliably transfer information and compute, design prin...
DNA nanotechnology has emerged as a reliable and programmable way of controlling matter at the nano...
For robust molecular implementation of tile-based algorithmic self-assembly, methods for reducing e...
Abstract. While the topic of Molecular Computation would have ap-peared even a half dozen years ago ...
In this paper we report the design and synthesis of DNA molecules (referred to as DNA tiles) with ...
Algorithmic self-assembly, a generalization of crystal growth processes, has been proposed as a mech...
Approaches to DNA-based computing by self-assembly require the use of D. T A nanostructures, called...
Molecular biology provides an inspiring proof-of-principle that chemical systems can store and proc...
Biology makes things far smaller and more complex than anything produced by human engineering. The b...
Algorithms and information, fundamental to technological and biological organization, are also an es...
Bottom-up fabrication of nanoscale structures relies on chemical processes to direct self-assembly. ...
Information and algorithms appear to be central to biological organization and processes, from the ...
A major challenge in practical DNA tile self-assembly is the minimization of errors. Using the kinet...
Molecular biology provides an inspiring proof-of-principle that chemical systems can store and proce...
Copying and counting are useful primitive operations for computation and construction. We have made ...
While biology demonstrates that molecules can reliably transfer information and compute, design prin...
DNA nanotechnology has emerged as a reliable and programmable way of controlling matter at the nano...
For robust molecular implementation of tile-based algorithmic self-assembly, methods for reducing e...
Abstract. While the topic of Molecular Computation would have ap-peared even a half dozen years ago ...
In this paper we report the design and synthesis of DNA molecules (referred to as DNA tiles) with ...
Algorithmic self-assembly, a generalization of crystal growth processes, has been proposed as a mech...
Approaches to DNA-based computing by self-assembly require the use of D. T A nanostructures, called...