Dr Constantine Evans

    Hamilton Institute

    Research Fellow

    Eolas Building
    3rd Floor,
    Office 339
    (01) 708 6619

    Biography

    I research the physics of complex self-assembly processes, examining how small, relatively simple particles can assemble themselves by basic processes into complex structures.

    Research Interests

    Complex crystal nucleation and growth processes, algorithmic self-assembly, and finding unexpected behaviours in basic physical processes.

    Peer Reviewed Journal

    Year Publication
    2024 Constantine G. Evans; Jackson O'Brien; Erik Winfree; Arvind Murugan (2024) 'Pattern recognition in the nucleation kinetics of non-equilibrium self-assembly'. Nature, 620 :500-507. [Link] [DOI]
    2017 Constantine G. Evans and Erik Winfree (2017) 'Physical principles for DNA tile self-assembly'. 46 (12):3808-3829. [Link] [DOI]
    2013 Evans, Constantine G. and Winfree, Erik (2013) 'DNA Sticky End Design and Assignment for Robust Algorithmic Self-assembly'. . [Link] [DOI]
    2012 Evans CG; Hariadi RF; Winfree E; (2012) 'Direct atomic force microscopy observation of DNA tile crystal growth at the single-molecule level'. Journal of the American Chemical Society, 134 (25). [DOI]

    Conference Contribution

    Year Publication
    2022 Trent Rogers, Constantine Evans, Damien Woods (2022) 28th International Conference on DNA Computing and Molecular Programming Covered DNA core tiles for robust tuning of spurious nucleation Albuquerque, New Mexico, .
    2022 Constantine G. Evans, David Doty, Damien Woods (2022) 28th International Conference on DNA Computing and Molecular Programming Growth dynamics: Precisely controlled self-assembly order of DNA tile nanostructures Albuquerque, New Mexico, .
    2019 Constantine G Evans, Jackson O'Brien, Erik Winfree, Arvind Murugan (2019) Kinetic control of spontaneous nucleation in uniquely-addressed multifarious self-assembly 25th International Conference on DNA Computing and Molecular Programming Seattle, WA, USA, .
    2019 Jackson O'Brien, Constantine Evans, Erik Winfree and Arvind Murugan (2019) Modeling nucleation for self-assembled structures with uneven concentrations 25th International Conference on DNA Computing and Molecular Programming Seattle, WA, USA, .
    2018 Constantine G Evans (2018) Simplifying implementable proofreading tile systems without increasing error rates Self-assembly, geometry and computation workshop, UCNC 2018 Fontainebleau, France, .
    2018 Constantine G Evans (2018) Thursday afternoon session 24th International Conference on DNA Computing and Molecular Programming Jinan, China, .
    2017 Constantine G Evans (2017) Biomolecular Assembly Self-Assembly and Supramolecular Chemistry Les Diablerets, CH, .
    2015 Constantine G Evans (2015) Programming Structure with Self-Assembling DNA Tile Ribbons GRC Self-Assembly and Supramolecular Chemistry Lucca (Barga), IT, .

    Conference Publication

    Year Publication
    2018 Constantine G Evans, Erik Winfree (2018) 24th International Conference on DNA Computing and Molecular Programming Optimizing Tile Set Size While Preserving Proofreading with a DNA Self-assembly Compiler Jinan, China,

    Book Chapter

    Year Publication
    2015 (2015) 'Experimental Implementation of Tile Assembly' In: Encyclopedia of Algorithms. [Link] [DOI]

    Computer Program

    Year Publication
    2019 Constantine Glen Evans (2019) Scikits-Bootstrap. [Computer Program] [DOI]

    Thesis

    Year Publication
    2014 Constantine Glen Evans (2014) Crystals that count! Physical principles and experimental investigations of DNA tile self-assembly. [Thesis] [Link]

    Co-edited Journal Issue

    Year Publication
    2023 Ho-Lin Chen, Constantine Glen Evans (2023) 29th International Conference on DNA Computing and Molecular Programming. [Co-edited Journal Issue]

    Article

    Year Publication
    2022 Evans, Constantine Glen and O'Brien, Jackson and Winfree, Erik and Murugan, Arvind (2022) Pattern recognition in the nucleation kinetics of non-equilibrium self-assembly. [Article]
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