Toroidal polar topology in strained ferroelectric polymer

Authors

Mengfan Guo, Tsinghua University
Changqing Guo, Beijing Institute of Technology
Jian Han, Tsinghua University
Shulin Chen, Peking University
Shan He, Tsinghua University
Tongxiang Tang, Tsinghua University
Qian Li, Tsinghua University
Joseph Strzalka, Argonne National Laboratory
Jing Ma, Tsinghua University
Di Yi, Tsinghua University
Ke Wang, Tsinghua University
Ben Xu, Tsinghua University
Peng Gao, Peking University
Houbing Huang, Beijing Institute of Technology
Long Qing Chen, Pennsylvania State University
Shujun Zhang, University of Wollongong
Yuan Hua Lin, Tsinghua University
Ce Wen Nan, Tsinghua University
Yang Shen, Tsinghua University

Publication Name

Science

Abstract

Polar topological texture has become an emerging research field for exotic phenomena and potential applications in reconfigurable electronic devices. We report toroidal topological texture self-organized in a ferroelectric polymer, poly(vinylidene fluoride-ran-trifluoroethylene) [P(VDF-TrFE)], that exhibits concentric topology with anticoupled chiral domains. The interplay among the elastic, electric, and gradient energies results in continuous rotation and toroidal assembly of the polarization perpendicular to polymer chains, whereas relaxor behavior is induced along polymer chains. Such toroidal polar topology gives rise to periodic absorption of polarized far-infrared (FIR) waves, enabling the manipulation of the terahertz wave on a mesoscopic scale. Our observations should inform design principles for flexible ferroic materials toward complex topologies and provide opportunities for multistimuli conversions in flexible electronics.

Open Access Status

This publication is not available as open access

Volume

371

Issue

6533

First Page

1050

Last Page

1056