Paper Publications
Release time: 2022-08-07Hits:
- Journal:ACS Appl. Mater. Interfaces 2019, 11, 41668–41675
- Abstract:Dynamic color-changing nanomaterials have been widely investigated for applications in fields like optical sensors, wearable activity monitors, smart electronic devices, and anticounterfeiting materials due to the excellent ability to change their optical properties with external variation. Here, a simple metal–insulator–metal (MIM) trilayer Fabry–Perot resonance cavity with a poly(N-isopropylacrylamide) (PNIPAm) brush layer as a responsive element is reported as a thermal-induced colorimetric response platform. The dynamic changes of conformation and physical properties of PNIPAm brush layer in response to external signals give rise to a significant color change of the MIM Fabry–Perot resonance cavity. This MIM Fabry–Perot resonance cavity shows the advantages of dynamic color change, rapid response, good repeatability, and simple construction. Additionally, the as-prepared MIM cavity shows great potential in various applications such as color printing, multicolor indicator, and information anticounterfeiting.
- Indexed by:SCI JCR Q1
- Translation or Not:no
- Pre One:Tieqiang Wang*, Chengsheng Luo, FuChun Liu, Linlin Li, Xuemin Zhang, Yunong Li, Enhou Han, Yu Fu* and Yonghua Jiao*. Highly Transparent, Conductive, and Bendable Ag Nanowire Electrodes with Enhanced Mechanical Stability Based on Polyelectrolyte Adhesive Layer
- Next One:Tieqiang Wang*, Guoshuai Song, Fuchun Liu, Yingqiu Qi, Chengsheng Luo, Xuemin Zhang, Yunong Li, Enhou Han, Yu Fu* and Yonghua Jiao*. Mechanical stabilization of metallic microstructures by insertion of an adhesive polymer underlayer for further optical and electrical applications
MOBILE Version