The exploration of chiral crystalline porous materials, such as metal–organic complexes
(MOCs) or metal–organic frameworks (MOFs), has been one of the most exciting recent …

The evolution of proteins from simpler, self-assembled peptides provides a powerful
blueprint for the design of complex synthetic materials. Previously, peptide–metal …

Highlights•Engineered peptide scaffolds that assemble in response to metal
coordination.•Design of metal-mediated protein assemblies with new structural/chemical …

Proteins are versatile natural building blocks with highly complex and multifunctional
architectures, and self-assembled protein structures have been created by the introduction …

Flexible and biocompatible metal peptide frameworks (MPFs) derived from short and ultra‐
short peptides have been explored for the storage of greenhouse gases, molecular …

Obtaining three-dimensional (3D) protein and peptide crystals on demand requires a
precisely orchestrated hierarchical assembly of biopolymer building blocks. In this work, we …

Peptides have become excellent platforms for the design of peptide–nanoparticle hybrid
superstructures, owing to their self-assembly and binding/recognition capabilities. Morover …

Inspired by natural hierarchical self-assembly of proteins and peptides, amino acids, as the
basic building units, have been shown to self-assemble to form highly ordered structures …

Chiral metal-organic frameworks (MOFs) have attracted a growing interest for their potential
use in energy technologies, asymmetric catalysis, chiral separation, and on a more basic …

Despite impressive advances in the construction of metal–organic frameworks (MOFs), the
formation of networks from peptidic ligands is difficult, though they are sought after for their …