Paper Publications
Release time: 2022-08-07Hits:
- Journal:ACS Appl. Mater. Interfaces 2022, 14, 7200–7207
- Abstract:At present, it remains challenging and desirable to prepare dynamic color-changing materials with wide viewing angles for practical applications. Herein, we proposed a responsive asymmetric metal–insulator–metal (MIM) Fabry–Perot resonance cavity to achieve dynamic color display with high viewing-angle tolerance. The responsive asymmetric MIM cavity is constructed with thermal-responsive poly(N-isopropyl acrylamide) (PNIPAm) brush as the mid-insulator layer sandwiched by two different metallic layers (Sn and Ag). The as-prepared MIM cavity shows both improved viewing-angle tolerance owing to the asymmetric architecture of the cavity and a wide tunable color gamut because of the thermal responsiveness of the mid PNIPAm layer. Remarkably, the as-prepared asymmetric MIM resonance cavity also possesses a relatively fast response rate and good repeatability. Together, with all these advantages, the proposed responsive asymmetric MIM cavity may open a new pathway to prepare high-performance color display material for future practical optical applications.
- Indexed by:SCI JCR Q1
- Translation or Not:no
Attachments:
- Pre One:Chenhong Liang, Fuqiang Fan, Kewei Li, Chao Liu, Guangrong Wang, Liying Zhang, Xuemin Zhang, Yu Fu* and Tieqiang Wang*. UV-Responsive, wide color gamut, inkless dynamic photonic paper enabled by disulfide-containing polyurethane based Fabry-Perot resonant cavity
- Next One:Guangrong Wang, Lei Wang, Zhan Cheng, Dan Chen, Xuemin Zhang, Tieqiang Wang*, Qi Wang* and Yu Fu. High-performance plasmonic lab-on-fiber sensing system constructed by universal polymer assisted transfer technique
MOBILE Version