Abstract
Hexagonal Fe2O3 nanosheets were firstly prepared by a high-temperature solvothermal method. Then,a modified Stöber method was employed to coat Fe2O3 nanosheet with a SiO2 shell,following with a gas-phase reduction method for the preparation of the monodisperse hexagonal Fe@SiO2 nanosheet (FeNSs). The obtained FeNS with the total side thickness of 220 nm and the total diagonal length of 400 nm has the advantages of uniform sizes,good dispersity and anisotropy. Notably,the FeNS was ferromagnetic with the saturation magnetization of 25.7 A·m2·kg−1. Serving as building blocks,FeNSs assembled to a novel amorphous photonic structure (APS) under the synergistic effect of the magnetically induced force,evaporation-induced capillary force and mechanical force. By tuning the angle of magnetic fields from 0° to 80°and 90° (relative to the plane of substrates),the chromatic APS patterns with red,green and purple was obtained,respectively. From the characterization of SEM and FFT,it is demonstrated that the assembly of APS is mainly attributed to the magnetically induced control of the long axis of FeNSs. Additionally,by using the dependence of the structural color of APS on the magnetic field orientation,various APS patterns with dynamic structural colors were also obtained.
| Translated title of the contribution | Dynamic Amorphous Photonic Structure Patterns Assembled by Hexagonal Magnetic Nanosheets |
|---|---|
| Original language | Chinese (Traditional) |
| Article number | 20220123 |
| Journal | Kao Teng Hsueh Hsiao Hua Heush Hsueh Pao/ Chemical Journal of Chinese Universities |
| Volume | 43 |
| Issue number | 8 |
| DOIs | |
| Publication status | Published - 10 Aug 2022 |