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Research Article | Open Access | Just Accepted

Vapor-phase self-assembly of orientation-controlled amino acid nanorod arrays for energy harvesting

Ying Tang1,2,§Pei Du2,§Shuaikang Zhou2Tong Wu2Weiqiang Fan2Haoyu Wang2Ehud Gazit3Rusen Yang1 ( )

1 School of Physics, Xidian University, Xi’an 710071, China

2 School of Advanced Materials and Nanotechnology, Xidian University, Xi’an 710071, China

3 Department of Molecular Microbiology and Biotechnology, George S. Wise Faculty of Life Sciences, Tel Aviv University, Tel Aviv 6997801, Israel

§ Ying Tang and Pei Du contributed equally to this study.

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Abstract

Biomolecules can form micro- and nanoscale structures with unique physicochemical properties. These structures tend to grow randomly in solution or on a substrate, and the lack of orientation control stems from a limited understanding of the self-assembly process, hindering their applications. Here, we achieve aligned, uniform nanorod arrays of aromatic amino acids via an electric-field-assisted physical vapor deposition process. The electric driving force and non-covalent intermolecular interactions work synergistically in biomolecular self-assembly. The vapor-deposition angle controls the stacking direction of tyrosine, phenylalanine, and levodopa, and a dynamic transition from vertical columnar crystals to horizontal needle-like epitaxial growth is observed. The good mechanical properties and piezoelectric response enable the fabrication of piezoelectric nanogenerators for environmental energy harvesting. The present work provides a new direction for the controlled growth of smart biomaterials and promotes their practical applications.

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Cite this article:
Tang Y, Du P, Zhou S, et al. Vapor-phase self-assembly of orientation-controlled amino acid nanorod arrays for energy harvesting. Nano Research, 2026, https://doi.org/10.26599/NR.2026.94908745

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Received: 13 February 2026
Revised: 13 April 2026
Accepted: 17 April 2026
Available online: 17 April 2026

© The Author(s) 2026. Published by Tsinghua University Press.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, https://creativecommons.org/licenses/by/4.0/)