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Molecular engineering of piezoelectricity in collagen-mimicking peptide assemblies

Engineering and Technology

Molecular engineering of piezoelectricity in collagen-mimicking peptide assemblies

S. Bera, S. Guerin, et al.

This research unveils an innovative, self-assembled piezoelectric device crafted from non-toxic, eco-friendly peptide-based materials. With a focus on molecular engineering of collagen-mimicking peptides, the study achieves unprecedented electromechanical properties, surpassing prior natural peptide outputs. Discover how this groundbreaking work by Santu Bera, Sarah Guerin, Hui Yuan, and colleagues transforms the landscape of piezoelectric technology.... show more
Abstract
Realization of a self-assembled, nontoxic and eco-friendly piezoelectric device with high performance, sensitivity and reliability is desirable to complement inorganic and polymer materials. Hierarchically organized natural materials such as collagen exhibit electromechanical properties that could be amplified via molecular engineering. Here, using a minimal collagen building block, we fabricate peptide-based piezoelectric generators utilizing a helical arrangement of Phe-Phe-derived tripeptides Pro-Phe-Phe and Hyp-Phe-Phe, composed only of proteinogenic amino acids. Addition of a hydroxyl group increases the predicted piezoelectric response by an order of magnitude (d35 = 27 pm V−1), the highest predicted to date in short natural peptides. We demonstrate tripeptide-based power generators producing stable maximum current >50 nA and potential >1.2 V. These results provide a device demonstration of computationally guided molecular engineering of piezoelectricity in peptide nanotechnology.
Publisher
Nature Communications
Published On
May 11, 2021
Authors
Santu Bera, Sarah Guerin, Hui Yuan, Joseph O'Donnell, Nicholas P. Reynolds, Oguzhan Maraba, Wei Ji, Linda J. W. Shimon, Pierre-Andre Cazade, Syed A. M. Tofail, Damien Thompson, Rusen Yang, Ehud Gazit
DOI
https://doi.org/10.1038/s41467-021-22895-6
Tags
piezoelectric device
peptide-based materials
molecular engineering
collagen-mimicking peptides
electromechanical properties
eco-friendly technology
self-assembly

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