Despite the several available strategies to build complex supramolecular constructs, only a handful of different molecular knots have been synthesised so far. Here, in response to the quest for further designable topologies, we use Monte Carlo sampling and molecular dynamics simulations, informed by general principles of supramolecular assembly, as a discovery tool for thermodynamically and kinetically accessible knot types made of helical templates. By combining this approach with the exhaustive enumeration of molecular braiding patterns applicable to more general template geometries, we find that only few selected shapes have the closed, symmetric and quasi-planar character typical of synthetic knots. The corresponding collection of admis...
Entangling strands in a well-ordered manner can produce useful effects, from shoelaces and fishing n...
Molecular knots remain difficult to produce using the current synthetic methods of chemistry because...
The study of topologically complex molecules is necessary to better understand the knotted architec...
Despite the several available strategies to build complex supramolecular constructs, only a handful ...
Guiding the self-assembly of identical building blocks towards complex three-dimensional structures ...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
Andrae D. Molecular knots, links, and fabrics: prediction of existence and suggestion of a synthetic...
Knots are being discovered with increasing frequency in both biological and synthetic macromolecules...
Knots are being discovered with increasing frequency in both biological and synthetic macromolecules...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
Knots are ubiquitous objects and decorative elements that have been studied since antiquity. During ...
Entangling strands in a well-ordered manner can produce useful effects, from shoelaces and fishing n...
Molecular knots remain difficult to produce using the current synthetic methods of chemistry because...
The study of topologically complex molecules is necessary to better understand the knotted architec...
Despite the several available strategies to build complex supramolecular constructs, only a handful ...
Guiding the self-assembly of identical building blocks towards complex three-dimensional structures ...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
The self-assembly of objects with a set of desired properties is a major goal of material science an...
Andrae D. Molecular knots, links, and fabrics: prediction of existence and suggestion of a synthetic...
Knots are being discovered with increasing frequency in both biological and synthetic macromolecules...
Knots are being discovered with increasing frequency in both biological and synthetic macromolecules...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
Knots are ubiquitous objects and decorative elements that have been studied since antiquity. During ...
Entangling strands in a well-ordered manner can produce useful effects, from shoelaces and fishing n...
Molecular knots remain difficult to produce using the current synthetic methods of chemistry because...
The study of topologically complex molecules is necessary to better understand the knotted architec...