Hofmeister series (HS), ion specific effect, or lyotropic sequence acts as a pivotal part in a
number of biological and physicochemical phenomena, eg, changing the solubility of …

Peptide-based hydrogels have been proven to be preeminent biomedical materials due to
their high water content, tunable mechanical stability, great biocompatibility and excellent …

Supramolecular chemistry originally defined by Lehn as “chemistry beyond molecules”
exploits noncovalent interactions between molecules to form 1D, 2D, and 3D …

Aromatic peptide amphiphiles are gaining popularity as building blocks for the bottom-up
fabrication of nanomaterials, including gels. These materials combine the simplicity of small …

Many biological materials exist in non-equilibrium states driven by the irreversible
consumption of high-energy molecules like ATP or GTP. These energy-dissipating structures …

Hydrogels can be formed by the self-assembly of certain small molecules in water. Self-
assembly occurs via non-covalent interactions. The self-assembly leads to the formation of …

The self-assembly and structural and functional properties of peptide conjugates containing
bulky terminal aromatic substituents are reviewed with a particular focus on bioactivity …

Amino acids and short peptides modified with the 9-fluorenylmethyloxycarbonyl (Fmoc)
group possess eminent self-assembly features and show distinct potential for applications …

fluorenylmethoxycarbonyl-diphenylalanine (Fmoc-FF), has been has been extensively
explored due to its ultrafast self-assembly kinetics, inherent biocompatibility, tunable …

This Minireview concerns recent advances in the design, synthesis, and application of low
molecular‐weight peptidic hydrogelators. The sequence‐specific combinations of amino …