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如何利用镧系和铋离子实现陷阱中电子与空穴运动的管理:同时实现X-ray成像,防伪与力的存储

已有 952 次阅读 2024-2-24 20:26 |个人分类:长余辉发光材料|系统分类:论文交流

研究性论文(非综述),入选Featured article,在期刊封面推广

题目:Charge carrier trapping management in Bi3+ and lanthanides doped Li(Sc,Lu)GeO4

 for x-ray imaging,anti-counterfeiting, and force recording

论文链接:https://pubs.aip.org/aip/apr/article/11/1/011415/3266830/Charge-carrier-trapping-management-in-Bi3-and

作者介绍:吕天帅 华侨大学 https://fgcl.hqu.edu.cn/info/1039/1304.htm

论文全文下载Lyu APR2024.pdf

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期刊介绍:《应用物理评论》(Applied Physics Reviews)是美国物理联合会(American Institute of Physics)旗下的

物理学顶级期刊,旨在发表应用物理学领域重要而新颖的高质量研究成果或权威而全面的综述,

年文章刊载量仅100余篇,2020年影响因子为19.162。

作者的其它论文列表:

List of some of my recent research articles:

[1] T. Lyu*, P. Dorenbos, Charge carrier trapping management in Bi3+ and lanthanides doped Li(Sc,Lu)GeO4 for x-ray imaging, anti-counterfeiting, and force recording, Applied Physics Reviews 11(1) (2024).  https://doi.org/10.1063/5.0175390

[2] T. Lyu*, P. Dorenbos, Z. Wei, Versatile and High-Performance LiTaO3:Tb3+, Gd3+ Perovskite for Multimode Anti-counterfeiting, Flexible X-Ray Imaging, Continuous Stress Sensing, and Non-Real-Time Recording, Laser & Photonics Reviews 17(11) (2023) 2300323. https://doi.org/10.1002/lpor.202300323     

[3] T. Lyu*, P. Dorenbos, Z. Wei, Designing LiTaO3:Ln3+,Eu3+ (Ln=Tb or Pr) perovskite dosimeter with excellent charge carrier storage capacity and stability for anti-counterfeiting and flexible X-ray imaging, Chemical Engineering Journal 461 (2023) 141685https://doi.org/10.1016/j.cej.2023.141685

[4] P. Huang, Z. Wen, Y. Yu, J. Xiao, Z. Wei, T. Lyu*, High charge carrier storage capacity and wide range X-rays to infrared photon sensing in LiLuGeO4:Bi3+,Ln3+ (Ln = Pr, Tb, or Dy) for anti-counterfeiting and information storage applications, Materials Chemistry Frontiers 7(1) (2023) 168-182. https://doi.org/10.1039/d2qm01098d

[5] T. Lyu*, P. Dorenbos, P. Xiong, Z. Wei, LiTaO3:Bi3+,Tb3+,Ga3+,Ge4+: A Smart Perovskite with High Charge Carrier Storage Capacity for X-Ray Imaging, Stress Sensing, and Non-Real-Time Recording, Advanced Functional Materials 32(39) (2022) 2206024.   https://doi.org/10.1002/adfm.202206024

[6] T. Lyu*, P. Dorenbos, C. Li, Z. Wei, Wide Range X-Ray to Infrared Photon Detection and Energy Storage in LiTaO3:Bi3+,Dy3+ Perovskite, Laser & Photonics Reviews 16(9) (2022) 2200055.              https://doi.org/10.1002/lpor.202200055

[7] T. Lyu*, P. Dorenbos, Vacuum-Referred Binding Energies of Bismuth and Lanthanide Levels in LiTaO3 Perovskite: Toward Designing Energy Storage Phosphor for Anti-Counterfeiting, X-Ray Imaging, and Mechanoluminescence, Laser & Photonics Reviews 16(10) (2022) 2200304.    https://doi.org/10.1002/lpor.202200304

[8] T. Lyu*, P. Dorenbos, C. Li, S. Li, J. Xu, Z. Wei, Unraveling electron liberation from Bi2+ for designing Bi3+-based afterglow phosphor for anti-counterfeiting and flexible X-ray imaging, Chemical Engineering Journal 435 (2022) 135038.    https://doi.org/10.1016/j.cej.2022.135038

[9] T. Lyu*, How to Rational Design and Explore Afterglow and Storage Phosphors by Using Vacuum Referred Binding Energy (VRBE) Diagram, Chinese Journal of Luminescence 43(9) (2022) 1413-1427.      https://doi.org/10.37188/cjl.20220123

[10] T. Lyu*, P. Dorenbos, Vacuum-Referred Binding Energies of Bismuth and Lanthanide Levels in ARE(Si,Ge)O4 (A=Li, Na; RE=Y, Lu): Toward Designing Charge-Carrier-Trapping Processes for Energy Storage, Chemistry of Materials 32(3) (2020) 1192-1209.       https://doi.org/10.1021/acs.chemmater.9b04341

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