Issue 3, 2024

Ferroelectricity of ice nanotube forests grown in three-dimensional graphene: the electric field effect

Abstract

Generating diverse ferroelectric ice nanotubes (NTs) efficiently has always been challenging, but matters in nanomaterial synthesis and processing technology. In the present work, we propose a method of growing ice NT forests in a single cooling process. A three-dimensional (3D) graphene structure was selected to behave as a representative container in which a batch of (5, 0) ice NTs was formed simultaneously under the cooling process from molecular dynamics simulation. Other similar 3D graphene structures but with different hole configurations, like uniform triangle or both triangle and pentagon, were also tested, revealing that ice NTs with different tube indices, i.e. both (3, 0) and (5, 0), could also be formed at the same time. Intriguingly, the orientations of the dipole moments of the water molecules of an ice NT formed were independent of each other, making the net ferroelectricity of the whole system weakened or even cancelled. An electric field could help change the orientation of the water molecules of the already obtained ice NTs and even twist the tube to be a spiral (5, 1) one if it was applied during the cooling process, such that the net ferroelectricity was greatly improved. The underlying physical mechanism of all phase transition phenomena, including the improvement of the ferroelectricity under an electric field, were explored in depth from the phase transition curves and structural point of view. The obtained results are of significant application value for improving the preparation efficiency of nano-ferroelectric materials, which are prosperous in nano-devices.

Graphical abstract: Ferroelectricity of ice nanotube forests grown in three-dimensional graphene: the electric field effect

Supplementary files

Article information

Article type
Paper
Submitted
31 Jul 2023
Accepted
04 Dec 2023
First published
06 Dec 2023

Nanoscale, 2024,16, 1188-1196

Ferroelectricity of ice nanotube forests grown in three-dimensional graphene: the electric field effect

T. Zhang, Y. Han, C. Luo, X. Liu, X. Zhang, Y. Song, Y. Chen and S. Du, Nanoscale, 2024, 16, 1188 DOI: 10.1039/D3NR03762B

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