In this review, we focus on the very recent developments on the use of the stimuli responsive
properties of polymer hydrogels for targeted drug delivery, tissue engineering, and …

Low-molecular-weight gels are currently a hugely important class of materials that are
attracting significant interest. These gels are formed when small molecules self-assemble …

Diphenylalanine is an amyloidogenic building block that can form a versatile array of
supramolecular materials. Its shortcomings, however, include the uncontrolled hierarchical …

In this review, we have focused on the design and development of low molecular weight self-
assembling peptide-based materials for various applications including cell proliferation …

Low-molecular-weight gels are formed by the self-assembly of small molecules into fibrous
networks that can immobilize a significant amount of solvent. Here, we focus on our work …

Nature is an important inspirational source for scientists, and presents complex and elegant
examples of adaptive and intelligent systems created by self-assembly. Significant effort has …

Self-assembling short peptides have attracted widespread interest due to their tuneable,
biocompatible nature and have potential applications in energy materials, tissue …

The self-assembly of low molecular weight gelators to form gels has enormous potential for
cell culturing, optoelectronics, sensing, and for the preparation of structured materials. There …

We have shown solvent‐and substrate‐dependent chiral inversion of a few glycoconjugate
supramolecules.(Z)‐F‐Gluco, in which d‐glucosamine has been attached chemically to Cbz …

The nanofibrillar structures that underpin self-assembling peptide (SAP) hydrogels offer
great potential for the development of finely tuned cellular microenvironments suitable for …