Add to ORKGAbstract — Molecular combinatory computing makes use of a small set of chemical reactions that together have the ability to implement arbitrary computations. Therefore it provides a means of “programming ” the synthesis of nanostructures and of controlling their behavior by programmatic means. We illustrate the approach by several simulated nano-assembly applications, and discuss a possible molecular implementation in terms of covalently structured molecular building blocks connected by hydrogen bonds. I
It has become clear over the past two decades that, in order to create functional synthetic nanoscal...
Biological organisms use complex molecular networks to navigate their environment and regulate their...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Information and algorithms appear to be central to biological organization and processes, from the s...
Molecular machines that assemble polymers in a programmed sequence are fundamental to life. They are...
Biological organisms are beautiful examples of programming. The program and data are stored in biolo...
Could one manipulate nanoscale building blocks using chemical reactions like molecular synthesis to ...
To comply with the rapidly increasing demand of information storage and processing, new strategies f...
Abstract. While the topic of Molecular Computation would have ap-peared even a half dozen years ago ...
This thesis details the synthesis of molecular species designed for a variety of nanotechnological a...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/18...
We propose a systematic method of synthesizing robust macromolecules of any desired shape with preci...
The emerging field of molecular electronics seeks to create computational function from individual m...
CONSPECTUS: The successes of electronic digital logic have transformed every aspect of human life ov...
Nucleic acids have proven to be remarkably versatile as an engineering material for chemical tasks i...
It has become clear over the past two decades that, in order to create functional synthetic nanoscal...
Biological organisms use complex molecular networks to navigate their environment and regulate their...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...
Information and algorithms appear to be central to biological organization and processes, from the s...
Molecular machines that assemble polymers in a programmed sequence are fundamental to life. They are...
Biological organisms are beautiful examples of programming. The program and data are stored in biolo...
Could one manipulate nanoscale building blocks using chemical reactions like molecular synthesis to ...
To comply with the rapidly increasing demand of information storage and processing, new strategies f...
Abstract. While the topic of Molecular Computation would have ap-peared even a half dozen years ago ...
This thesis details the synthesis of molecular species designed for a variety of nanotechnological a...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/18...
We propose a systematic method of synthesizing robust macromolecules of any desired shape with preci...
The emerging field of molecular electronics seeks to create computational function from individual m...
CONSPECTUS: The successes of electronic digital logic have transformed every aspect of human life ov...
Nucleic acids have proven to be remarkably versatile as an engineering material for chemical tasks i...
It has become clear over the past two decades that, in order to create functional synthetic nanoscal...
Biological organisms use complex molecular networks to navigate their environment and regulate their...
Molecular computing is a discipline that aims at harnessing individual molecules at nanoscales for c...