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109 results on '"Evans, Myfanwy E."'

1. Can solvents tie knots? Helical folds of biopolymers in liquid environments

Author

Coles, Rhoslyn and Evans, Myfanwy E.

Subjects
Condensed Matter - Soft Condensed Matter, Mathematics - Geometric Topology, 53A04, 82-08
Abstract

Helices are the quintessential geometric motif of microscale self-assembly, from $\alpha$-helices in proteins to double helices in DNA. Assembly of the helical geometry of biopolymers is a foundational step in a hierarchy of structure that eventually leads to biological activity. Simulating self-assembly in a simplified and controlled setting allows us to probe the relevance of the solvent as a component of the system of collaborative processes governing biomaterials. Using a simulation technique based on the morphometric approach to solvation, we performed computer experiments which fold a short open flexible tube, modelling a biopolymer in an aqueous environment, according to the interaction of the tube with the solvent alone. Different fluid environments may favour quite different solute geometry: We find an array of helical geometries that self-assemble depending on the solvent conditions, including overhand knot shapes and symmetric double helices where the strand folds back on itself. Interestingly these shapes-in all their variety-are energetically favoured over the $\alpha$-helix. In differentiating the role of solvation in self-assembly our study helps illuminate the energetic background scenery in which all soluble biomolecules live, indeed our results demonstrate that the solvent is capable of quite fundamental rearrangements even up to tying a simple overhand knot.

Published
2024

2. Diagrammatic representations of 3-periodic entanglements

Author

Andriamanalina, Toky, Evans, Myfanwy E., and Mahmoudi, Sonia

Subjects
Mathematics - Geometric Topology, Mathematics - Algebraic Topology, 57K10, 57K12 (Primary) 57K35 (Secondary)
Abstract

Diagrams enable the use of various algebraic and geometric tools for analysing and classifying knots. In this paper we introduce a new diagrammatic representation of triply periodic entangled structures (TP tangles), which are embeddings of simple curves in $\mathbb{R}^3$ that are invariant under translations along three non-coplanar axes. As such, these entanglements can be seen as preimages of links embedded in the 3-torus $\mathbb{T}^3 = \mathbb{S}^1 \times \mathbb{S}^1 \times \mathbb{S}^1$ in its universal cover $\mathbb{R}^3$, where two non-isotopic links in $\mathbb{T}^3$ may possess the same TP tangle preimage. We consider the equivalence of TP tangles in $\mathbb{R}^3$ through the use of diagrams representing links in $\mathbb{T}^3$. These diagrams require additional moves beyond the classical Reidemeister moves, which we define and show that they preserve ambient isotopies of links in $\mathbb{T}^3$. The final definition of a tridiagram of a link in $\mathbb{T}^3$ allows us to then consider additional notions of equivalence relating non-isotopic links in $\mathbb{T}^3$ that possess the same TP tangle preimage., Comment: Corrections

Published
2024

3. Robust self-assembly of nonconvex shapes in 2D

Author

Mayrhofer, Lukas, Evans, Myfanwy E., and Friesecke, Gero

Subjects
Physics - Computational Physics, Mathematics - Numerical Analysis
Abstract

We present fast simulation methods for the self-assembly of complex shapes in two dimensions. The shapes are modeled via a general boundary curve and interact via a standard volume term promoting overlap and an interpenetration penalty. To efficiently realize the Gibbs measure on the space of possible configurations we employ the hybrid Monte Carlo algorithm together with a careful use of signed distance functions for energy evaluation. Motivated by the self-assembly of identical coat proteins of the tobacco mosaic virus which assemble into a helical shell, we design a particular nonconvex 2D model shape and demonstrate its robust self-assembly into a unique final state. Our numerical experiments reveal two essential prerequisites for this self-assembly process: blocking and matching (i.e., local repulsion and attraction) of different parts of the boundary; and nonconvexity and handedness of the shape.

Published
2023

4. Robust geometric modeling of 3-periodic tensegrity frameworks using Riemannian optimization

Author

Himmelmann, Matthias and Evans, Myfanwy E.

Subjects
Mathematics - Algebraic Geometry, Mathematics - Optimization and Control, 52C25, 74P20 (Primary) 14Q65, 92E10, 74B20 (Seconday)
Abstract

Framework materials and their deformations provide a compelling relation between materials science and algebraic geometry. Physical distance constraints within the material transform into polynomial constraints, making algebraic geometry and associated numerical strategies feasible for finding equilibrium configurations and deformation pathways. In this paper, we build the necessary geometric formulations and numerical strategies to explore the mechanics of two examples of 3-periodic tensegrity frameworks through non-linear optimization, eventually showing that the structures are auxetic by multiple definitions., Comment: 20 pages, 10 figures

Published
2023

5. Re-entrant tensegrity: A three-periodic, chiral, tensegrity structure that is auxetic

Author

Oster, Mathias, Dias, Marcelo A., de Wolff, Timo, and Evans, Myfanwy E.

Subjects
Condensed Matter - Materials Science
Abstract

We present a three-periodic, chiral, tensegrity structure and demonstrate that it is auxetic. Our tensegrity structure is constructed using the chiral symmetry {\Pi}+ cylinder packing, transforming the cylinders themselves to the elastic elements and cylinder contacts to incompressible rods. The resulting structure displays local re-entrant geometry at its vertices, and is shown to be auxetic when modelled as an equilibrium configuration of spatial constraints subject to a quasi-static deformation. When the tensegrity structure is subsequently modelled as a lattice material with elastic elements, the auxetic behaviour is again confirmed through finite element modelling as well as demonstrated with a 3d printed example. The cubic symmetry of the structure means that the behaviour is independent of the chosen stretching direction and the auxetic behaviour is observed in both perpendicular directions. This structure could be the simplest three-dimensional analogue to the two-dimensional re-entrant honeycomb. This, alongside the chirality of the structure, make it an interesting design target for multifunctional materials.

Published
2021

8. Isotopic tiling theory for hyperbolic surfaces

Author

Kolbe, Benedikt and Evans, Myfanwy E.

Subjects
Mathematics - Geometric Topology, 05B45, 05C30, 52C20, 57M07
Abstract

In this paper, we develop the mathematical tools needed to explore isotopy classes of tilings on hyperbolic surfaces of finite genus, possibly nonorientable, with boundary, and punctured. More specifically, we generalize results on Delaney-Dress combinatorial tiling theory using an extension of mapping class groups to orbifolds, in turn using this to study tilings of covering spaces of orbifolds. Moreover, we study finite subgroups of these mapping class groups. Our results can be used to extend the Delaney-Dress combinatorial encoding of a tiling to yield a finite symbol encoding the complexity of an isotopy class of tilings. The results of this paper provide the basis for a complete and unambiguous enumeration of isotopically distinct tilings of hyperbolic surfaces.

Published
2018
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9. Enumerating Isotopy Classes of Tilings guided by the symmetry of Triply-Periodic Minimal Surfaces

Author

Kolbe, Benedikt and Evans, Myfanwy E.

Subjects
Mathematics - Geometric Topology, 05B45, 05C30, 52C20, 57M07, 68U05, 82D25
Abstract

We present a technique for the enumeration of all isotopically distinct ways of tiling a hyperbolic surface of finite genus, possibly nonorientable and with punctures and boundary. This provides a generalization of the enumeration of Delaney-Dress combinatorial tiling theory on the basis of isotopic tiling theory. To accomplish this, we derive representations of the mapping class group of the orbifold associated to the symmetry group in the group of outer automorphisms of the symmetry group of a tiling. We explicitly give descriptions of certain subgroups of mapping class groups and of tilings as decorations on orbifolds, namely those that are commensurate with the Primitive, Diamond and Gyroid triply-periodic minimal surfaces. We use this explicit description to give an array of examples of isotopically distinct tilings of the hyperbolic plane with symmetries generated by rotations, outlining how the approach yields an unambiguous enumeration.

Published
2018

13. Network-like propagation of cell-level stress in random foams

Author

Evans, Myfanwy E., Kraynik, Andrew M., Reinelt, Douglas A., Mecke, Klaus, and Schröder-Turk, Gerd E.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Quasistatic simple shearing flow of random monodisperse soap froth is investigated by analyzing Surface Evolver simulations of spatially periodic foams. Elastic-plastic behavior is caused by irreversible topological rearrangements (T1s) that occur when Plateau's laws are violated; the first T1s occur at the elastic limit and at large strains frequent cascades of T1s, composed of one or more individual T1s, sustain the yield-stress plateau. The stress and shape anisotropy of individual cells is quantified by $Q$, a scalar measure derived from the interface tensor that gauges each cell's contribution to the global stress. During each T1 cascade, the connected set of cells with decreasing $Q$, called the \textit{stress release domain}, is network-like and highly non-local. Geometrically, the network-like nature of the stress release domains is corroborated through morphological analysis using the Euler characteristic. The stress release domain is distinctly different from the set of cells that change topology during a T1 cascade. Our results highlight the unique rheological behavior of foams, where complex large-scale cooperative rearrangements of foam cells are observed as a consequence of distinctly local events., Comment: 5 pages, 7 figures

Published
2013
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14. Exotic self-assembly of hard spheres in a morphometric solvent.

Author

Spirandelli, Ivan, Coles, Rhoslyn, Friesecke, Gero, and Evans, Myfanwy E.

Subjects
GEOMETRIC shapes, SPHERES, SOLVENTS, SOLVATION
Abstract

The self-assembly of spheres into geometric structures, under various theoretical conditions, offers valuable insights into complex self-assembly processes in soft systems. Previous studies have utilized pair potentials between spheres to assemble maximum contact clusters in simulations and experiments. The morphometric approach to solvation free energy that we utilize here goes beyond pair potentials; it is a geometrybased theory that incorporates a weighted combination of geometric measures over the solvent accessible surface for solute configurations in a solvent. In this paper, we demonstrate that employing the morphometric model of solvation free energy in simulating the self-assembly of sphere clusters results, under most conditions, in the previously observed maximum contact clusters. Under other conditions, it unveils an assortment of extraordinary sphere configurations, such as double helices and rhombohedra. These exotic structures arise specifically under conditions where the interactions take multibody potentials into account. This investigation establishes a foundation for comprehending the diverse range of geometric forms in self-assembled structures, emphasizing the significance of the morphometric approach in this context. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales

Author

Schamberger, Barbara, Ziege, Ricardo, Anselme, Karine, Ben Amar, Martine, Bykowski, Michał, Castro, André P.G., Cipitria, Amaia, Coles, Rhoslyn A., Dimova, Rumiana, Eder, Michaela, Ehrig, Sebastian, Escudero, Luis M., Evans, Myfanwy E., Fernandes, Paulo R., Fratzl, Peter, Geris, Liesbet, Gierlinger, Notburga, Hannezo, Edouard, Iglič, Aleš, Kirkensgaard, Jacob J.K., Kollmannsberger, Philip, Kowalewska, Łucja, Kurniawan, Nicholas A., Papantoniou, Ioannis, Pieuchot, Laurent, Pires, Tiago H.V., Renner, Lars D., Sageman-Furnas, Andrew O., Schröder-Turk, Gerd E., Sengupta, Anupam, Sharma, Vikas R., Tagua, Antonio, Tomba, Caterina, Trepat, Xavier, Waters, Sarah L., Yeo, Edwina F., Roschger, Andreas, Bidan, Cécile M., Dunlop, John W.C., Schamberger, Barbara, Ziege, Ricardo, Anselme, Karine, Ben Amar, Martine, Bykowski, Michał, Castro, André P.G., Cipitria, Amaia, Coles, Rhoslyn A., Dimova, Rumiana, Eder, Michaela, Ehrig, Sebastian, Escudero, Luis M., Evans, Myfanwy E., Fernandes, Paulo R., Fratzl, Peter, Geris, Liesbet, Gierlinger, Notburga, Hannezo, Edouard, Iglič, Aleš, Kirkensgaard, Jacob J.K., Kollmannsberger, Philip, Kowalewska, Łucja, Kurniawan, Nicholas A., Papantoniou, Ioannis, Pieuchot, Laurent, Pires, Tiago H.V., Renner, Lars D., Sageman-Furnas, Andrew O., Schröder-Turk, Gerd E., Sengupta, Anupam, Sharma, Vikas R., Tagua, Antonio, Tomba, Caterina, Trepat, Xavier, Waters, Sarah L., Yeo, Edwina F., Roschger, Andreas, Bidan, Cécile M., and Dunlop, John W.C.

Abstract

Surface curvature both emerges from, and influences the behavior of, living objects at length scales ranging from cell membranes to single cells to tissues and organs. The relevance of surface curvature in biology is supported by numerous experimental and theoretical investigations in recent years. In this review, first, a brief introduction to the key ideas of surface curvature in the context of biological systems is given and the challenges that arise when measuring surface curvature are discussed. Giving an overview of the emergence of curvature in biological systems, its significance at different length scales becomes apparent. On the other hand, summarizing current findings also shows that both single cells and entire cell sheets, tissues or organisms respond to curvature by modulating their shape and their migration behavior. Finally, the interplay between the distribution of morphogens or micro-organisms and the emergence of curvature across length scales is addressed with examples demonstrating these key mechanistic principles of morphogenesis. Overall, this review highlights that curved interfaces are not merely a passive by-product of the chemical, biological, and mechanical processes but that curvature acts also as a signal that co-determines these processes.

Published
2023

16. Curvature in Biological Systems:Its Quantification, Emergence, and Implications across the Scales

Author

Schamberger, Barbara, Ziege, Ricardo, Anselme, Karine, Ben Amar, Martine, Bykowski, Michał, Castro, André P.G., Cipitria, Amaia, Coles, Rhoslyn A., Dimova, Rumiana, Eder, Michaela, Ehrig, Sebastian, Escudero, Luis M., Evans, Myfanwy E., Fernandes, Paulo R., Fratzl, Peter, Geris, Liesbet, Gierlinger, Notburga, Hannezo, Edouard, Iglič, Aleš, Kirkensgaard, Jacob J.K., Kollmannsberger, Philip, Kowalewska, Łucja, Kurniawan, Nicholas A., Papantoniou, Ioannis, Pieuchot, Laurent, Pires, Tiago H.V., Renner, Lars D., Sageman-Furnas, Andrew O., Schröder-Turk, Gerd E., Sengupta, Anupam, Sharma, Vikas R., Tagua, Antonio, Tomba, Caterina, Trepat, Xavier, Waters, Sarah L., Yeo, Edwina F., Roschger, Andreas, Bidan, Cécile M., Dunlop, John W.C., Schamberger, Barbara, Ziege, Ricardo, Anselme, Karine, Ben Amar, Martine, Bykowski, Michał, Castro, André P.G., Cipitria, Amaia, Coles, Rhoslyn A., Dimova, Rumiana, Eder, Michaela, Ehrig, Sebastian, Escudero, Luis M., Evans, Myfanwy E., Fernandes, Paulo R., Fratzl, Peter, Geris, Liesbet, Gierlinger, Notburga, Hannezo, Edouard, Iglič, Aleš, Kirkensgaard, Jacob J.K., Kollmannsberger, Philip, Kowalewska, Łucja, Kurniawan, Nicholas A., Papantoniou, Ioannis, Pieuchot, Laurent, Pires, Tiago H.V., Renner, Lars D., Sageman-Furnas, Andrew O., Schröder-Turk, Gerd E., Sengupta, Anupam, Sharma, Vikas R., Tagua, Antonio, Tomba, Caterina, Trepat, Xavier, Waters, Sarah L., Yeo, Edwina F., Roschger, Andreas, Bidan, Cécile M., and Dunlop, John W.C.

Abstract

Surface curvature both emerges from, and influences the behavior of, living objects at length scales ranging from cell membranes to single cells to tissues and organs. The relevance of surface curvature in biology is supported by numerous experimental and theoretical investigations in recent years. In this review, first, a brief introduction to the key ideas of surface curvature in the context of biological systems is given and the challenges that arise when measuring surface curvature are discussed. Giving an overview of the emergence of curvature in biological systems, its significance at different length scales becomes apparent. On the other hand, summarizing current findings also shows that both single cells and entire cell sheets, tissues or organisms respond to curvature by modulating their shape and their migration behavior. Finally, the interplay between the distribution of morphogens or micro-organisms and the emergence of curvature across length scales is addressed with examples demonstrating these key mechanistic principles of morphogenesis. Overall, this review highlights that curved interfaces are not merely a passive by-product of the chemical, biological, and mechanical processes but that curvature acts also as a signal that co-determines these processes.

Published
2023

17. Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales

Author

Fundação para a Ciência e a Tecnologia (Portugal), Fonds National de la Recherche Luxembourg, European Research Council, Netherlands Organization for Scientific Research, Agence Nationale de la Recherche (France), Australian Research Council, German Research Foundation, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Schamberger, Barbara, Ziege, Ricardo, Anselme, Karine, Ben Amar, Martine, Bykowski, Michał, Castro, André P. G., Cipitria, Amaia, Coles, Rhoslyn A., Dimova, Rumiana, Eder, Michaela, Ehrig, Sebastian, Escudero, Luis M., Evans, Myfanwy E., Fernandes, Paulo R., Fratzl, Peter, Geris, Liesbet, Gierlinger, Notburga, Hannezo, Edouard, Iglič, Aleš, Kirkensgaard, Jacob J. K., Kollmannsberger, Philip, Kowalewska, Łucja, Kurniawan, Nicholas A., Papantoniou, Ioannis, Pieuchot, Laurent, Pires, Tiago H. V., Renner, Lars D., Sageman-Furnas, Andrew O., Schröder-Turk, Gerd E., Sengupta, Anupam, Sharma, Vikas R., Tagua, Antonio, Tomba, Caterina, Trepat, Xavier, Waters, Sarah L., Yeo, Edwina F., Roschger, Andreas, Bidan, Cécile M., Dunlop, John W. C., Fundação para a Ciência e a Tecnologia (Portugal), Fonds National de la Recherche Luxembourg, European Research Council, Netherlands Organization for Scientific Research, Agence Nationale de la Recherche (France), Australian Research Council, German Research Foundation, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Schamberger, Barbara, Ziege, Ricardo, Anselme, Karine, Ben Amar, Martine, Bykowski, Michał, Castro, André P. G., Cipitria, Amaia, Coles, Rhoslyn A., Dimova, Rumiana, Eder, Michaela, Ehrig, Sebastian, Escudero, Luis M., Evans, Myfanwy E., Fernandes, Paulo R., Fratzl, Peter, Geris, Liesbet, Gierlinger, Notburga, Hannezo, Edouard, Iglič, Aleš, Kirkensgaard, Jacob J. K., Kollmannsberger, Philip, Kowalewska, Łucja, Kurniawan, Nicholas A., Papantoniou, Ioannis, Pieuchot, Laurent, Pires, Tiago H. V., Renner, Lars D., Sageman-Furnas, Andrew O., Schröder-Turk, Gerd E., Sengupta, Anupam, Sharma, Vikas R., Tagua, Antonio, Tomba, Caterina, Trepat, Xavier, Waters, Sarah L., Yeo, Edwina F., Roschger, Andreas, Bidan, Cécile M., and Dunlop, John W. C.

Abstract

Surface curvature both emerges from, and influences the behavior of, living objects at length scales ranging from cell membranes to single cells to tissues and organs. The relevance of surface curvature in biology is supported by numerous experimental and theoretical investigations in recent years. In this review, first, a brief introduction to the key ideas of surface curvature in the context of biological systems is given and the challenges that arise when measuring surface curvature are discussed. Giving an overview of the emergence of curvature in biological systems, its significance at different length scales becomes apparent. On the other hand, summarizing current findings also shows that both single cells and entire cell sheets, tissues or organisms respond to curvature by modulating their shape and their migration behavior. Finally, the interplay between the distribution of morphogens or micro-organisms and the emergence of curvature across length scales is addressed with examples demonstrating these key mechanistic principles of morphogenesis. Overall, this review highlights that curved interfaces are not merely a passive by-product of the chemical, biological, and mechanical processes but that curvature acts also as a signal that co-determines these processes.

Published
2023

19. Curvature in Biological Systems: Its Quantification, Emergence, and Implications across the Scales

Author

Schamberger, Barbara, primary, Ziege, Ricardo, additional, Anselme, Karine, additional, Ben Amar, Martine, additional, Bykowski, Michał, additional, Castro, André P. G., additional, Cipitria, Amaia, additional, Coles, Rhoslyn A., additional, Dimova, Rumiana, additional, Eder, Michaela, additional, Ehrig, Sebastian, additional, Escudero, Luis M., additional, Evans, Myfanwy E., additional, Fernandes, Paulo R., additional, Fratzl, Peter, additional, Geris, Liesbet, additional, Gierlinger, Notburga, additional, Hannezo, Edouard, additional, Iglič, Aleš, additional, Kirkensgaard, Jacob J. K., additional, Kollmannsberger, Philip, additional, Kowalewska, Łucja, additional, Kurniawan, Nicholas A., additional, Papantoniou, Ioannis, additional, Pieuchot, Laurent, additional, Pires, Tiago H. V., additional, Renner, Lars D., additional, Sageman‐Furnas, Andrew O., additional, Schröder‐Turk, Gerd E., additional, Sengupta, Anupam, additional, Sharma, Vikas R., additional, Tagua, Antonio, additional, Tomba, Caterina, additional, Trepat, Xavier, additional, Waters, Sarah L., additional, Yeo, Edwina F., additional, Roschger, Andreas, additional, Bidan, Cécile M., additional, and Dunlop, John W. C., additional

Published
2023
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22. Enumerating isotopy classes of tilings guided by the symmetry of triply

Author

Kolbe, Benedikt Maximilian (Dr. rer. nat.) and Evans, Myfanwy E. (Prof. Dr.)

Subjects
Institut für Mathematik, ddc:510
Abstract

We present a technique for the enumeration of all isotopically distinct ways of tiling a hyperbolic surface of finite genus, possibly nonorientable and with punctures and boundary. This generalizes the enumeration using Delaney--Dress combinatorial tiling theory of combinatorial classes of tilings to isotopy classes of tilings. To accomplish this, we derive an action of the mapping class group of the orbifold associated to the symmetry group of a tiling on the set of tilings. We explicitly give descriptions and presentations of semipure mapping class groups and of tilings as decorations on orbifolds. We apply this enumerative result to generate an array of isotopically distinct tilings of the hyperbolic plane with symmetries generated by rotations that are commensurate with the threedimensional symmetries of the primitive, diamond, and gyroid triply periodic minimal surfaces, which have relevance to a variety of physical systems.

Published
2022

29. Cocoon microstructures through the lens of topological persistence

Author

Raichenko, Vira, Rosenthal, Nikolai, Eder, Michaela, and Evans, Myfanwy E.

Abstract

Biological materials display a wide array of functionality, often dictated by complicated microstructures. New geometric and topological strategies allow one to describe the microstructures in a precise and systematic way. This article describes the application of topological persistence and other geometric methods to the microstructural analysis of three-dimensional X-ray micro-computed tomography scans of the Bombyx morisilkworm cocoons. These methods allow conclusions to be drawn about pore space gradients, silk fibre thickness gradients and fibre alignment within the cocoon. The study demonstrates the applicability of these topological and geometric methods to quantify and characterize fibrous materials.

Published
2024
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30. Isotopic tiling theory for hyperbolic surfaces.

Author

Kolbe, Benedikt and Evans, Myfanwy E.

Abstract

In this paper, we develop the mathematical tools needed to explore isotopy classes of tilings on hyperbolic surfaces of finite genus, possibly nonorientable, with boundary, and punctured. More specifically, we generalize results on Delaney–Dress combinatorial tiling theory using an extension of mapping class groups to orbifolds, in turn using this to study tilings of covering spaces of orbifolds. Moreover, we study finite subgroups of these mapping class groups. Our results can be used to extend the Delaney–Dress combinatorial encoding of a tiling to yield a finite symbol encoding the complexity of an isotopy class of tilings. The results of this paper provide the basis for a complete and unambiguous enumeration of isotopically distinct tilings of hyperbolic surfaces. [ABSTRACT FROM AUTHOR]

Published
2021
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34. Hierarchical self-assembly of a striped gyroid formed by threaded chiral mesoscale networks

Author

Kirkensgaard, Jacob Judas Kain, Evans, Myfanwy E., De Campo, Liliana, Hyde, Stephen, Kirkensgaard, Jacob Judas Kain, Evans, Myfanwy E., De Campo, Liliana, and Hyde, Stephen

Abstract

Numerical simulations reveal a family of hierarchical and chiral multicontinuous network structures self-assembled from a melt blend of Y-shaped ABC and ABD three-miktoarm star terpolymers, constrained to have equal-sized A/B and C/D chains, respectively. The C and D majority domains within these patterns form a pair of chiral enantiomeric gyroid labyrinths (srs nets) over a broad range of compositions. The minority A and B components together define a hyperbolic film whose midsurface follows the gyroid minimal surface. A second level of assembly is found within the film, with the minority components also forming labyrinthine domains whose geometry and topology changes systematically as a function of composition. These smaller labyrinths are well described by a family of patterns that tile the hyperbolic plane by regular degree-three trees mapped onto the gyroid. The labyrinths within the gyroid film are densely packed and contain either graphitic hcb nets (chicken wire) or srs nets, forming convoluted intergrowths of multiple nets. Furthermore, each net is ideally a single chiral enantiomer, induced by the gyroid architecture. However, the numerical simulations result in defect-ridden achiral patterns, containing domains of either hand, due to the achiral terpolymeric starting molecules. These mesostructures are among the most topologically complex morphologies identified to date and represent an example of hierarchical ordering within a hyperbolic pattern, a unique mode of soft-matter self-assembly.

Published
2014

35. Polycontinuous geometries for inverse lipid phases with more than two aqueous network domains

Author

Schröder-Turk, Gerd E., de Campo, Liliana, Evans, Myfanwy E., Saba, Matthias, Kapfer, Sebastian C., Varslot, Trond, Grosse-Brauckmann, Karsten, Ramsden, Stuart, Hyde, Stephen T., Schröder-Turk, Gerd E., de Campo, Liliana, Evans, Myfanwy E., Saba, Matthias, Kapfer, Sebastian C., Varslot, Trond, Grosse-Brauckmann, Karsten, Ramsden, Stuart, and Hyde, Stephen T.

Abstract

Inverse bicontinuous cubic phases with two aqueous network domains separated by a smooth bilayer are firmly established as equilibrium phases in lipid/water systems. The purpose of this article is to highlight the generalisations of these bicontinuous geometries to polycontinuous geometries, which could be realised as lipid mesophases with three or more network-like aqueous domains separated by a branched bilayer. An analysis of structural homogeneity in terms of bilayer width variations reveals that ordered polycontinuous geometries are likely candidates for lipid mesophase structures, with similar chain packing characteristics to the inverse micellar phases (that once were believed not to exist due to high packing frustration). The average molecular shape required by global geometry to form these multi-network phases is quantified by the surfactant shape parameter, v/(al); we find that it adopts values close to those of the known lipid phases. We specifically analyse the 3etc(187 193) structure of hexagonal symmetry P63 /mcm with three aqueous domains, the 3dia(24 220) structure of cubic symmetry I 3d composed of three distorted diamond networks, the cubic chiral 4srs(24 208) with cubic symmetry P4232 and the achiral 4srs(5 133) structure of symmetry P42/nbc, each consisting of four intergrown undistorted copies of the srs net (the same net as in the QGII gyroid phase). Structural homogeneity is analysed by a medial surface approach assuming that the head-group interfaces are constant mean curvature surfaces. To facilitate future experimental identification, we provide simulated SAXS scattering patterns that, for the 4srs(24 208) and 3dia(24 220) structures, bear remarkable similarity to those of bicontinuous QGII-gyroid and QDII-diamond phases, with comparable lattice parameters and only a single peak that cannot be indexed to the well-established structures. While polycontinuous lipid phases have, to date, not been reported, the likelihood of their formation is

Published
2013

36. Set Voronoi diagrams of 3D assemblies of aspherical particles

Author

Schaller, Fabian M., Kapfer, Sebastian C., Evans, Myfanwy E., Hoffmann, Matthias J.F., Aste, Tomaso, Saadatfar, Mohammad, Mecke, Klaus, Delaney, Gary W., Schröder-Turk, Gerd E., Schaller, Fabian M., Kapfer, Sebastian C., Evans, Myfanwy E., Hoffmann, Matthias J.F., Aste, Tomaso, Saadatfar, Mohammad, Mecke, Klaus, Delaney, Gary W., and Schröder-Turk, Gerd E.

Abstract

Several approaches to quantitative local structure characterization for particulate assemblies, such as structural glasses or jammed packings, use the partition of space provided by the Voronoi diagram. The conventional construction for spherical mono-disperse particles, by which the Voronoi cell of a particle is that of its centre point, cannot be applied to configurations of aspherical or polydisperse particles. Here, we discuss the construction of a Set Voronoi diagram for configurations of aspherical particles in three-dimensional space. The Set Voronoi cell of a given particle is composed of all points in space that are closer to the surface (as opposed to the centre) of the given particle than to the surface of any other; this definition reduces to the conventional Voronoi diagram for the case of mono-disperse spheres. An algorithm for the computation of the Set Voronoi diagram for convex particles is described, as a special case of a Voronoi-based medial axis algorithm, based on a triangulation of the particles’ bounding surfaces. This algorithm is further improved by a pre-processing step based on morphological erosion, which improves the quality of the approximation and circumvents the problems associated with small degrees of particle–particle overlap that may be caused by experimental noise or soft potentials. As an application, preliminary data for the volume distribution of disordered packings of mono-disperse oblate ellipsoids, obtained from tomographic imaging, is computed.

Published
2013

37. Polycontinuous geometries for inverse lipid phases with more than two aqueous network domains

Author

Schroeder-Turk, Gerd E, De Campo, Liliana, Evans, Myfanwy E., Saba, M, Kapfer, Sebastian C, Varslot, Trond, Grosse-Brauckmann, K, Ramsden, Stuart, Hyde, Stephen, Schroeder-Turk, Gerd E, De Campo, Liliana, Evans, Myfanwy E., Saba, M, Kapfer, Sebastian C, Varslot, Trond, Grosse-Brauckmann, K, Ramsden, Stuart, and Hyde, Stephen

Abstract

Inverse bicontinuous cubic phases with two aqueous network domains separated by a smooth bilayer are firmly established as equilibrium phases in lipid/water systems. The purpose of this article is to highlight the generalisations of these bicontinuous geo

Published
2012

42. Set Voronoi diagrams of 3D assemblies of aspherical particles

Author

Schaller, Fabian M., primary, Kapfer, Sebastian C., additional, Evans, Myfanwy E., additional, Hoffmann, Matthias J.F., additional, Aste, Tomaso, additional, Saadatfar, Mohammad, additional, Mecke, Klaus, additional, Delaney, Gary W., additional, and Schröder-Turk, Gerd E., additional

Published
2013
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