Issue 14, 2024

Functional oligo- and polypeptide assemblies for photochemical, optical and electronic applications

Abstract

The primary and secondary structures of peptides are useful as scaffolds to sequentially arrange functional groups of molecules. In this review, we review self-assembled functional peptides, whereby peptides with appropriate amino acid sequences can assemble using functional groups on their side chains. First, we apply our design strategies for the synthesis of peptide-based materials with sequenced side chains with polar moieties, organic dyes and metal complexes. The synthetic oligopeptides thus obtained exhibit inherent photoinduced charge separation and electrochemical redox activities, as well as responses to bio-sequences. Next, catalytic and photocatalytic oxidation reduction reactions and hydrogen evolution reactions are shown by utilizing the peptides with separated functionalities on both sides of β-sheets by hybridizing with electro- and photoactive graphene oxide and metal nanoparticles. Finally, the self-assembled natural proteins that form micrometre-scale spherical geometry and fibres are utilized for optical and electronic applications. The silk fibroin forms well-defined microspheres with smooth surface morphology, leading to properties suitable for use in optical resonators, which can sense external humidity because of the hygroscopic nature of silk fibroin. Dragline silk fibres can act as optical waveguides that can perform intermediate natural polymer-based optical logic operations. These functional peptides are utilizable for various applications in catalysis, optics and electronics.

Graphical abstract: Functional oligo- and polypeptide assemblies for photochemical, optical and electronic applications

Article information

Article type
Review Article
Submitted
29 Feb 2024
Accepted
14 May 2024
First published
24 Jun 2024
This article is Open Access
Creative Commons BY license

Mater. Horiz., 2024,11, 3203-3212

Functional oligo- and polypeptide assemblies for photochemical, optical and electronic applications

Y. Yamamoto, W. Y. Heah and K. Tashiro, Mater. Horiz., 2024, 11, 3203 DOI: 10.1039/D4MH00218K

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