Peptide-Based Supramolecular Materials
A special issue of Molecules (ISSN 1420-3049). This special issue belongs to the section "Materials Chemistry".
Deadline for manuscript submissions: closed (30 April 2023) | Viewed by 2220
Special Issue Editors
Interests: peptide; self-assembly; co-assembly; metal-coordination assembly; supramolecular chemistry; metal-organic framework; peptide metal-organic framework; TEM; in-situ TEM; liquid cell TEM; piezoelectric materials
Interests: molecular recognition; biological physics; bionanotechnology; self-assembly; supramolecular chemistry
Interests: supramolecular hydrogels; biomaterials; peptide self-assembly; peptide crystallization; structure–property relationship; biomedical materials; optoelectronic devices
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Special Issue Information
Dear Colleagues,
The self-assembly of peptide is critical in biology. The dynamic nature of noncovalent interactions amongst peptide building blocks dictates that their supramolecular assemblies can be dynamic and flexible, consequently opening up new horizons for sophisticated bio-inspired materials. The insights gained from natural systems, as well as a clear description of fundamental assembly strategies, can be further used for the future design of building blocks for the supramolecular engineering of adaptable and dynamically reconfigurable bio-inspired materials at the nanoscale. The advances in unravelling the molecular mechanisms of the peptide self-assembly will contribute to an entire set of sustainable and degradable materials, configurable sensors, precisely delivered drug carriers and therapeutics, and innovative unique modes of renewable energy generation.
In this context, we envision that this Special Issue will provide a fundamental understanding and outlook on the concept of peptide-based supramolecular materials, which will facilitate a guiding scheme for the tailored-design of peptide-based functional materials. This is a great opportunity for publishing any novel, preliminary, or outstanding datasets. Specialized reviews and tutorials are also very welcome but they are not limited to the design, assembly strategies, and characterization of peptide-based bio-inspired materials towards nanobiotechnological applications. We look forward to seeing your current research findings and to sharing it across the scientific community in this Special Issue.
Dr. Yu Chen
Prof. Dr. Ehud Gazit
Prof. Dr. Wei Ji
Guest Editors
Manuscript Submission Information
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Keywords
- peptide
- peptide-derived molecules
- supramolecular chemistry
- self-assembly
- co-assembly
- hydrogel
- nanomaterials
- metal–peptide assemblies
- peptide-MOF
- peptide crystallization
- tissue engineering
- drug delivery
- biocatalysis
- nanotechnological applications
