Covalent Post-Assembly Modification: A Synthetic Multipurpose Tool in Supramolecular Chemistry.

The use of covalent post-assembly modification (PAM) in supramolecular chemistry has grown significantly in recent years, to the point where PAM is now a versatile synthesis tool for tuning, modulating, and expanding the functionality of self-assembled complexes and materials. PAM underpins supramolecular template-synthesis strategies, enables modular derivatization of supramolecular assemblies, permits the covalent 'locking' of unstable structures, and can trigger controlled structural transformations between different assembled morphologies. This Review discusses key examples of PAM spanning a range of material classes, including discrete supramolecular complexes, self-assembled soft nanostructures and hierarchically ordered polymeric and framework materials.

Development and Application of Synthetic Affinity Ligands for the Purification of Ferritin-Based Influenza Antigens.

A recently developed novel recombinant influenza antigen vaccine has shown great success in preclinical studies in ferrets and mice. It provides broader protection, and is efficient to manufacture compared to the conventional trivalent influenza vaccines (TIV). Each strain of the recombinant antigen has a constant self-assembled bacterial ferritin core which, if used as a target for affinity chromatography, could lead to a universal purification method.

How to make a porphyrin flip: dynamics of asymmetric porphyrin oligomers.

We present the first predictions of meso-aryl flipping pathways in porphyrin oligomers. In the context of cyclic oligoporphyrins this flipping results in a paddle rotation of each porphyrin monomer in the oligomeric ring. If the monomer porphyrin units are asymmetric, this flipping will have consequences for their supramolecular behaviour.

Preparation of a porphyrinic bis(pyridyl aldehyde) and its supramolecular complexes.

Shape-specific molecular assemblies require the preparation of the constituent building blocks with the necessary properties to bias exclusive formation of the proposed structures. In this work, a novel linear porphyrin dialdehyde was synthesised and used to assemble a supramolecular grid via Cu(i) heteroleptic phenanthroline/pyridyl imine complexation, and a tetrahedral cage via Fe(ii) pyridyl imine coordination.

The two-step mechanochemical synthesis of porphyrins.

Porphyrin synthesis under solvent-free conditions represents the "greening" of a traditional synthesis that normally requires large amounts of organic solvent, and has hindered the industrial-scale synthesis of this useful class of molecules. We have found that the four-fold acid-catalysed condensation of aldehyde and pyrrole to yield a tetra-substituted porphyrin is possible through mechanochemical techniques, without a solvent present. This represents one of the still-rare examples of carbon-carbon bond formation by mechanochemistry.