Last update: doc. Mgr. Jan Kynčl, Ph.D. (07.05.2019)
This course in a new area of applied combinatorics given by Fulbright-Charles University Distinguished Chair
Prof. Ellis-Monaghan - offered not only to graduates but to post-docs and faculty - follows the curriculum of a
research group, with a ramp up period to learn the background, followed by investigation into open problems,
culminating in an oral presentation/paper.
Last update: doc. Mgr. Jan Kynčl, Ph.D. (07.05.2019)
This course in a new area of applied combinatorics given by Fulbright-Charles University Distinguished Chair
Prof. Ellis-Monaghan - offered not only to graduates but to post-docs and faculty - follows the curriculum of a
research group, with a ramp up period to learn the background, followed by investigation into open problems,
culminating in an oral presentation/paper.
Literature -
Last update: doc. Mgr. Jan Kynčl, Ph.D. (04.05.2019)
J. Pelesko. Self Assembly: The Science of Things That Put Themselves Together. Taylor Francis Group, LLC, 2007.
N. C. Seeman. Structural DNA Nanotechnology. Cambridge University Press, 2016.
Last update: doc. Mgr. Jan Kynčl, Ph.D. (04.05.2019)
J. Pelesko. Self Assembly: The Science of Things That Put Themselves Together. Taylor Francis Group, LLC, 2007.
N. C. Seeman. Structural DNA Nanotechnology. Cambridge University Press, 2016.
Syllabus -
Last update: doc. Mgr. Jan Kynčl, Ph.D. (04.05.2019)
Overview of DNA self-assembly mechanics.
Modular Assembly-heuristics, closed solutions, algorithms, and complexity.
DNA Origami-- heuristics, closed solutions, algorithms, and complexity.
Last update: doc. Mgr. Jan Kynčl, Ph.D. (04.05.2019)
Overview of DNA self-assembly mechanics.
Modular Assembly-heuristics, closed solutions, algorithms, and complexity.
DNA Origami-- heuristics, closed solutions, algorithms, and complexity.
