Add to ORKGKnots are being discovered with increasing frequency in both biological and synthetic macromolecules and have been fundamental topological targets for chemical synthesis for the past two decades. Here, we report on the synthesis of the most complex non-DNA molecular knot prepared to date: the self-assembly of five bis-aldehyde and five bis-amine building blocks about five metal cations and one chloride anion to form a 160-atom-loop molecular pentafoil knot (five crossing points). The structure and topology of the knot is established by NMR spectroscopy, mass spectrometry and X-ray crystallography, revealing a symmetrical closed-loop double helicate with the chloride anion held at the centre of the pentafoil knot by ten CH...Cl – hydrogen bo...
The synthesis of molecular knots has been a major achievement in the field of chemical topology, but...
Conventional approaches to the synthesis of molecular knots and links mostly rely on metal templatio...
We report the two-step synthesis of a molecular trefoil knot in 90% overall yield through the self-a...
Knots are being discovered with increasing frequency in both biological and synthetic macromolecules...
The study of topologically complex molecules is necessary to better understand the knotted architec...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
The knotting of biomolecules impacts their function and enables them to carry out new tasks. Likewis...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
Molecular knots remain difficult to produce using the current synthetic methods of chemistry because...
Entangling strands in a well-ordered manner can produce useful effects, from shoelaces and fishing n...
Despite the several available strategies to build complex supramolecular constructs, only a handful ...
Knots and entanglements are ubiquitous. Beyond their aesthetic appeal, these fascinating topological...
Molecular knots occur in DNA, proteins, and other macromolecules. However, the benefits that can pot...
When it takes eight to tango: Since the synthesis of the simplest of all knots, the trefoil knot, in...
Molecular knots occur in DNA, proteins, and other macromolecules. However, the benefits that can pot...
The synthesis of molecular knots has been a major achievement in the field of chemical topology, but...
Conventional approaches to the synthesis of molecular knots and links mostly rely on metal templatio...
We report the two-step synthesis of a molecular trefoil knot in 90% overall yield through the self-a...
Knots are being discovered with increasing frequency in both biological and synthetic macromolecules...
The study of topologically complex molecules is necessary to better understand the knotted architec...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
The knotting of biomolecules impacts their function and enables them to carry out new tasks. Likewis...
The first synthetic molecular trefoil knot was prepared in the late 1980s. However, it is only in th...
Molecular knots remain difficult to produce using the current synthetic methods of chemistry because...
Entangling strands in a well-ordered manner can produce useful effects, from shoelaces and fishing n...
Despite the several available strategies to build complex supramolecular constructs, only a handful ...
Knots and entanglements are ubiquitous. Beyond their aesthetic appeal, these fascinating topological...
Molecular knots occur in DNA, proteins, and other macromolecules. However, the benefits that can pot...
When it takes eight to tango: Since the synthesis of the simplest of all knots, the trefoil knot, in...
Molecular knots occur in DNA, proteins, and other macromolecules. However, the benefits that can pot...
The synthesis of molecular knots has been a major achievement in the field of chemical topology, but...
Conventional approaches to the synthesis of molecular knots and links mostly rely on metal templatio...
We report the two-step synthesis of a molecular trefoil knot in 90% overall yield through the self-a...