| Literature DB >> 29105842 |
Jin He1, Xiaoxuan Guo1, Yibo Chen1, Rui Shi2, Yan Huang3, Jing Zhang3, Yufei Wang1, Zhao-Qing Liu1.
Abstract
A series of Ce3+ -activated K4 SrSi3 O9 materials emitting bright blue light under near-UV excitation was obtained by a facile solid-state reaction. The luminescence of Ce3+ -doped K4 SrSi3 O9 shows excellent thermal stability in a large temperature range. The detailed temperature/concentration-dependent luminescent properties of Ce3+ confirm that there are two different Ce3+ sites in K4 SrSi3 O9 :Ce3+ , and energy transfer from the high-energy Ce(1)3+ sites to the low-energy Ce(2)3+ sites was demonstrated to occur by electric dipole-dipole interaction. The maximum photoluminescence quantum yield of Ce3+ -doped K4 SrSi3 O9 can reach 56 %, and a UV-excited white LED device with low correlated color temperature (CCT=4617 K) and high color-rendering index (Ra =80) was fabricated with K4 SrSi3 O9 :Ce3+ .Entities:
Keywords: cerium; energy conversion; energy transfer; luminescence; solid-state reactions
Year: 2017 PMID: 29105842 DOI: 10.1002/chem.201704373
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236