Optical anti-counterfeiting and information storage based on rare-earth-doped luminescent materials

IF 5.7 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Research Bulletin Pub Date : 2024-03-22 DOI:10.1016/j.materresbull.2024.112801

Chengyun Zhang , Qingxin Yin , Shuangkang Ge , Jianxia Qi , Qingyan Han , Wei Gao , Yongkai Wang , Mingdi Zhang , Jun Dong

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Abstract

Rare-earth-doped materials with abundant electronic energy levels are capable of emitting bright multicolor radiation and are therefore considered irreplaceable candidates for optical anti-counterfeiting and optical information storage. This review summarizes recent theoretical and experimental advances of optical anti-counterfeiting and optical information storage based on rare earth ion-doped materials. Static and dynamic anti-counterfeiting schemes based on excitation light and luminescent center modulation, as well as hybrid modulation schemes based on mechanical force, thermal stimulation, etc., are discussed first. This is followed by a discussion of writing and reading of stored information, light-emitting pattern erasure schemes based on light irradiation and heating, and binary optical information storage based on plasmonic photothermal scheme. This review will promote a clear understanding of luminescence modulation in rare-earth-doped materials and contribute to the design of high-security multidimensional optical anti-counterfeiting systems and highly-integrated multiple-writable optical information storage systems, which are essential to the information security and storage.

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基于掺稀土发光材料的光学防伪和信息存储技术

具有丰富电子能级的掺稀土材料能够发出明亮的多色辐射，因此被认为是光学防伪和光信息存储不可替代的候选材料。本综述总结了基于掺稀土离子材料的光学防伪和光信息存储的最新理论和实验进展。首先讨论了基于激发光和发光中心调制的静态和动态防伪方案，以及基于机械力、热刺激等的混合调制方案。随后讨论了存储信息的写入和读取、基于光照射和加热的发光图案擦除方案，以及基于等离子体光热方案的二进制光学信息存储。这篇综述将促进人们对掺稀土材料中的发光调制有一个清晰的认识，并有助于设计对信息安全和存储至关重要的高安全性多维光学防伪系统和高集成度可多次写入的光学信息存储系统。

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来源期刊

Materials Research Bulletin 工程技术-材料科学：综合

CiteScore

9.80

自引率

5.60%

发文量

372

审稿时长

42 days

期刊介绍： Materials Research Bulletin is an international journal reporting high-impact research on processing-structure-property relationships in functional materials and nanomaterials with interesting electronic, magnetic, optical, thermal, mechanical or catalytic properties. Papers purely on thermodynamics or theoretical calculations (e.g., density functional theory) do not fall within the scope of the journal unless they also demonstrate a clear link to physical properties. Topics covered include functional materials (e.g., dielectrics, pyroelectrics, piezoelectrics, ferroelectrics, relaxors, thermoelectrics, etc.); electrochemistry and solid-state ionics (e.g., photovoltaics, batteries, sensors, and fuel cells); nanomaterials, graphene, and nanocomposites; luminescence and photocatalysis; crystal-structure and defect-structure analysis; novel electronics; non-crystalline solids; flexible electronics; protein-material interactions; and polymeric ion-exchange membranes.