| Literature DB >> 31853697 |
Fangyuan Lin1, Zhiwei Lai1, Linchun Zhang1, Yipeng Huang1, Feiming Li1, Pingyun Chen2, Yiru Wang1, Xi Chen3,4,5.
Abstract
Manganese(II)-doped zinc sulfide nanocrystals (Mn:ZnS NCs) with dual-emission fluorescence (peaks at 445 nm and 590 nm under 330 nm excitation), good water stability and low toxicity were synthesized by hot injection. The fluorescence intensity of both emission bands of the nanocrystals can change rapidly by the content of gaseous and dissolved oxygen. The process is fully reversible. Compared with the maximum intensity of Mn:ZnS sensing film in 100% nitrogen, the emission of the blue emission decreases by 72% in the presence of 100% oxygen, and the yellow emission by 32%. Response is linear in the presence of 3% to 12% of oxygen percentage in gas. For water-dissolved oxygen, the linear response occurs between 0.54 and 11.4 mg·L-1. Graphical abstractMn-doped ZnS NCs with dual-emission fluorescence were synthesized by hot-injection method. The reversible and rapid sensing characteristics of Mn-doped ZnS NCs to oxygen were studied, and the possible sensing mechanism was investigated.Entities:
Keywords: Dissolved oxygen; Dual-emission fluorescence; Inherent sensing characteristic; Oxygen gas; Semiconductor nanocrystals; Surface luminescence centers; Trap state
Year: 2019 PMID: 31853697 DOI: 10.1007/s00604-019-4056-7
Source DB: PubMed Journal: Mikrochim Acta ISSN: 0026-3672 Impact factor: 5.833