Enhancing photoluminescence in ZrO2:Eu3+ phosphor Co-doped with mono/di/trivalent ions for flexible displays, advanced data security, and biomedical applications through charge compensation

Red emitting cubic ZrO2:Eu3+ (1–6 mol %) nanophosphors (NPs), emitting red light (1–6 mol %), are co-doped with alkali metal ions (A+ = K+, Na+, Li+), (B2+=Ca2+), (C3+ = Bi3+) using a low-temperature, self-propagating solution combustion method with Alanine as a novel fuel. The optimal concentration...

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Bibliographic Details
Published inMaterials science in semiconductor processing Vol. 174; p. 108127
Main Authors Krushna, B.R. Radha, Navya, N., Sharma, S.C., Sivaganesh, D., Varalakshmi, V. Sureka, Francis, Dileep, Shivakumar, V., Devaraja, S., Manjunatha, K., Wu, Sheng Yun, Nagabhushana, H.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2024
Subjects
Bendable screens
Biomedical uses
Blood clotting disorders
Charge balance
Counterfeit prevention
Fluorescent tagging
Forensic fingerprinting
Light emission
Fluorescent tagging
Light emission
Forensic fingerprinting
Charge balance
Blood clotting disorders
Counterfeit prevention
Bendable screens
Biomedical uses
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Summary:Red emitting cubic ZrO2:Eu3+ (1–6 mol %) nanophosphors (NPs), emitting red light (1–6 mol %), are co-doped with alkali metal ions (A+ = K+, Na+, Li+), (B2+=Ca2+), (C3+ = Bi3+) using a low-temperature, self-propagating solution combustion method with Alanine as a novel fuel. The optimal concentration is 4 mol % (ZrO2:4 % Eu3+), exhibiting enhanced photoluminescence (PL) intensity in the order Li+ (40 folds) > Na+ (5 folds) > Bi3+ (4 folds)> K+ (3 folds) > Ca2+ (2 folds). ZrO2:4 % Eu3+/Li+ co-doped phosphors display robust red emission, closely matching commercial red phosphors CIE coordinates (0.620, 0.374). This optimized phosphor is applied for latent fingerprints (LFPs) development on various surfaces using a powder dusting approach. In the co-doped samples with Li+, K+, Na+, Ca2+, Bi3+, levels I-II were observed, while Li+ co-doped samples displayed level III ridge features, enhancing personal identification. The developed fingerprinting materials exhibit high sensitivity, resolution, and minimal background interference. Additionally, ZrO2:4 % Eu3+/Li+ NPs and soluble poly (vinyl alcohol) (PVA) are employed to craft transparent anti-counterfeiting (AC) films, showcasing AC properties through intense red emission under UV 365 nm light. Their notable flexibility, durability, and foldability expand the potential applications in AC techniques. These findings highlight ZrO2:4 % Eu3+/Li+ NPs as versatile luminous platforms for displays, high-quality lighting, fingerprinting, anti-counterfeiting, and biomedical applications. [Display omitted] •(1–6 mol %) Eu3+ doped and co-doped (1 mol % of Li+, K+, Na+, Ca2+, Bi3+) ZrO2:4 % Eu3+ NPs are prepared using solution combustion method.•ZrO2:4 % Eu3+/Li + showed 40 folds larger emission intensity for ZrO2:4 % Eu3+ NPs.•ZrO2:4 % Eu3+/Li+ was explored as a red phosphor for WLED applications, LFP and AC applications.•PVA@ZrO2:4 % Eu3+/Li+ NCs exhibit excellent flexibility and foldability which are useful for flexible display devices.•Optimized NPs are useful for the treatment of early ageing, internal stress distortion, and thrombotic disorders.
ISSN:1369-8001
1873-4081
DOI:10.1016/j.mssp.2024.108127