Natural supramolecular assemblies exhibit unique structural and functional properties that have been optimized over the course of evolution. Inspired by these natural systems, various bio-nanomaterials have been developed using peptides, proteins, and nucleic acids as components. Peptides are attractive building blocks because they enable the important domains of natural protein assemblies to be isolated and optimized while retaining the original structures and functions. Furthermore, the peptide subunits can be conjugated with exogenous molecules such as peptides, proteins, nucleic acids, and metal nanoparticles to generate advanced functions. In this personal account, we summarize recent progress in the construction of peptide-based nanom...
In recent years, self-assembled peptide nanotechnology has attracted a great deal of attention for i...
Nanotubular structures can form from a variety of different materials such as inorganic19–22, carbon...
The design of bioinspired nanostructures and materials of defined size and shape is challenging as i...
With improved understanding of the design rules for self-assembling peptides, new challenges will be...
Throughout nature, self-assembly gives rise to functional supramolecular biomaterials that can perfo...
An ability to engineer functional materials from the bottom-up would have an impact on nanoscale sci...
Self-assembly is a ubiquitous process in biology where it plays numerous important roles and underli...
Peptide-based materials that have diverse structures and functionalities are an important type of bi...
Nature__s own building block, peptide/protein derived materials have been of great interest for supr...
This tutorial review looks at the design rules that allow peptides to be exploited as building block...
Natural biomolecular systems have evolved to form a rich variety of supramolecular materials and mac...
Self-assembly at the nanoscale is becoming increasingly important for the fabrication of novel supr...
Molecular self-assembly is a key function in biology and has been developed as an elegant technique ...
Self‐assembled structures obtained from organic molecules have shown great potential for application...
Nature exploits sustainable methods for the creation of inorganic materials on the nanoscale for a v...
In recent years, self-assembled peptide nanotechnology has attracted a great deal of attention for i...
Nanotubular structures can form from a variety of different materials such as inorganic19–22, carbon...
The design of bioinspired nanostructures and materials of defined size and shape is challenging as i...
With improved understanding of the design rules for self-assembling peptides, new challenges will be...
Throughout nature, self-assembly gives rise to functional supramolecular biomaterials that can perfo...
An ability to engineer functional materials from the bottom-up would have an impact on nanoscale sci...
Self-assembly is a ubiquitous process in biology where it plays numerous important roles and underli...
Peptide-based materials that have diverse structures and functionalities are an important type of bi...
Nature__s own building block, peptide/protein derived materials have been of great interest for supr...
This tutorial review looks at the design rules that allow peptides to be exploited as building block...
Natural biomolecular systems have evolved to form a rich variety of supramolecular materials and mac...
Self-assembly at the nanoscale is becoming increasingly important for the fabrication of novel supr...
Molecular self-assembly is a key function in biology and has been developed as an elegant technique ...
Self‐assembled structures obtained from organic molecules have shown great potential for application...
Nature exploits sustainable methods for the creation of inorganic materials on the nanoscale for a v...
In recent years, self-assembled peptide nanotechnology has attracted a great deal of attention for i...
Nanotubular structures can form from a variety of different materials such as inorganic19–22, carbon...
The design of bioinspired nanostructures and materials of defined size and shape is challenging as i...
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