Paper Publications
Release time: 2022-08-07Hits:
- Journal:Nanotechnology 2022, 33, 095502
- Abstract:Plasmonic lab-on-fiber (LOF) system has become an emerging sensing platform for the realization of miniaturized and portable plasmonic sensors. Herein, a facile and efficient polymer assisted transfer technique was reported for the preparation of plasmonic LOF systems. The proposed plasmonic LOF system was constructed through transferring plasmonic arrays to the end surface of optical fibers using polylactic acid as the sacrificial layer. The morphology of the transferred plasmonic arrays maintains excellent consistency with the original arrays. Importantly, the as-prepared plasmonic LOF system also possesses outstanding sensing performance in refractive index sensing and quantitative label-free biosensing applications. Additionally, the proposed polymer assisted transfer technique shows broad universality for various plasmonic arrays. Together with the above features, it is believed that the polymer assisted transfer technique will show great potential for the application of future plasmonic LOF systems.
- Indexed by:SCI JCR Q2
- Translation or Not:no
Attachments:
- Pre One:Chao Liu, Guangrong Wang, Liying Zhang, Fuqiang Fan, Xuemin Zhang, Yu Fu and Tieqiang Wang*. Dynamic Color Display with Viewing-Angle Tolerance Based on the Responsive Asymmetric Fabry–Perot Cavity
- Next One:Guangrong Wang, Dan Chen, Tieqiang Wang*, Hongxu Chen, Xuemin Zhang, Yunong Li, Liying Zhang, Fuqiang Fan and Yu Fu*. Lab-on-fiber sensing system based on responsive Fabry–Perot optical resonance cavities prepared through in situ construction strategy
MOBILE Version