摘要: Switching luminescence of lanthanide-based
molecules through an external electric field is considered as a
promising approach toward novel functional molecule-based
devices. Classic routes use casted films and liquid electrolyte as
media for redox reactions. Such protocol, even if efficient, is
relatively hard to turn into an effective solid-state device. In this
work, we explicitly synthesize lanthanide-based dimers whose
luminescent behavior is affected by the presence of Cu2+ ions.
Excellent evaporability of the dimers and utilization of Cu2+-
based solid-state electrolyte makes it possible to reproduce solution behavior at the solid state. Reversible modulation of Cu2+ ions transport can be achieved by an electric field in a solid-state device, where lanthanide-related luminescence is driven by an electric field. These findings provide a proof-of-concept alternative approach for electrically driven modulation of solid-state luminescence and show promising potential for information storage media in the future.
-
期刊:
ACS APPLIED MATERIALS & INTERFACES
-
分类:
物理学
>>
普通物理:统计和量子力学,量子信息等
-
引用:
ChinaXiv:201705.00421
(或此版本
ChinaXiv:201705.00421V1)
DOI:10.12074/201705.00421V1
CSTR:32003.36.ChinaXiv.201705.00421.V1
- 推荐引用方式:
Yi, XH [Yi, Xiaohui][ 1,2 ],Shang, J [Shang, Jie][ 1,2 ],Pan, L [Pan, Liang][ 1,2 ],Tan, HW [Tan, Hongwei][ 1,2 ],Chen, B [Chen, Bin][ 1,2 ],Liu, G [Liu, Gang][ 1,2 ],Huang, G [Huang, Gang][ 3 ],Bernot, K [Bernot, Kevin][ 3 ],Guillou, O [Guillou, Olivier][ 3 ],Li, RW [Li, Run-Wei][ 1,2 ]i.(2017).Reversible Luminescence Modulation upon an Electric Field on a Full Solid-State Device Based on Lanthanide Dimers.ACS APPLIED MATERIALS & INTERFACES.[ChinaXiv:201705.00421]
(点此复制)