Tailoring traps in Eu2+ activated persistent phosphors for multilevel information storage and encryption

IF 6.7 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Chaoyang Jia, Dangli Gao, Zhigang Wang, Xiangyu Zhang, Sining Yun, Jin Zhong Zhang, Xiaojun Wang
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引用次数: 0

Abstract

Persistent luminescence (PersL) phosphors, identified as ideal candidates, hold immense promise for information storage and encryption. However, practical storage and encryption technology using these phosphors remains uncommon due to their weak luminescence intensity and the inconvenience of light sources used in encryption and decryption processes. Here, we have developed SrMgSiGeO:Eu,Mn,Dy phosphor with a super-long PersL beyond 100 h, the higher charge storage capacity and PersL efficiency (17 %) than commercial SrAlO:Eu,Dy phosphors by introduction of co-dopant Mn. This phosphor exhibits rapid and efficient charging capability when exposed to various light sources such as sunlight, light-emitting diode, mobile phone and computer screen. To explain the high charge storage capacity and super-long PersL, we propose a novel trap mechanism based on hole-electron defect pair trap structures. Notably, this phosphor as an anti-counterfeiting material demonstrates high-order encryption by the adding specific information writing process via temperature management. This study provides a new paradigm for future design of PersL phosphors and luminescent anti-counterfeiting.

Abstract Image

定制 Eu2+ 活化持久性荧光粉中的陷阱,实现多级信息存储和加密
持久发光(PersL)荧光粉被认为是理想的候选材料,在信息存储和加密方面大有可为。然而,由于这些荧光粉的发光强度较弱以及加密和解密过程中使用光源的不便,使用这些荧光粉的实用存储和加密技术仍不常见。在这里,我们通过引入共掺杂剂 Mn,开发出了 SrMgSiGeO:Eu,Mn,Dy荧光粉,与商用 SrAlO:Eu,Dy 荧光粉相比,它具有超过 100 小时的超长 PersL,更高的电荷存储容量和 PersL 效率(17%)。这种荧光粉在各种光源(如太阳光、发光二极管、手机和电脑屏幕)下都能表现出快速高效的充电能力。为了解释这种荧光粉的高电荷存储能力和超长 PersL,我们提出了一种基于空穴-电子缺陷对陷阱结构的新型陷阱机制。值得注意的是,这种荧光粉作为一种防伪材料,通过温度管理添加特定的信息写入过程,实现了高阶加密。这项研究为未来设计 PersL 荧光粉和发光防伪提供了新的范例。
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来源期刊
CiteScore
8.90
自引率
6.80%
发文量
596
审稿时长
33 days
期刊介绍: Materials Today Chemistry is a multi-disciplinary journal dedicated to all facets of materials chemistry. This field represents one of the fastest-growing areas of science, involving the application of chemistry-based techniques to the study of materials. It encompasses materials synthesis and behavior, as well as the intricate relationships between material structure and properties at the atomic and molecular scale. Materials Today Chemistry serves as a high-impact platform for discussing research that propels the field forward through groundbreaking discoveries and innovative techniques.
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