Annealing-assisted optimization for persistency of afterglow of SrAl2O4:Eu2+/Dy3+ microparticles for forensic detection

Abhishek Kumar; Diana M A Crista; Ara Núñez-Montenegro; Joaquim C G Esteves da Silva; Santosh Kumar Verma

doi:10.1039/d3ra03872f

Annealing-assisted optimization for persistency of afterglow of SrAl₂O₄:Eu²⁺/Dy³⁺ microparticles for forensic detection

RSC Adv. 2023 Oct 2;13(41):28676-28685. doi: 10.1039/d3ra03872f. eCollection 2023 Sep 26.

Authors

Abhishek Kumar^{1

2}, Diana M A Crista^{1

3}, Ara Núñez-Montenegro^{1

3}, Joaquim C G Esteves da Silva¹, Santosh Kumar Verma⁴

Affiliations

¹ Chemistry Research Unit (CIQUP), Institute of Molecular Sciences (IMS), Departamento de Geociências, Ambiente e Ordenamento do Território, Faculdade de Ciências, Universidade do Porto Rua do Campo Alegre s/n Porto 4169-007 Portugal ak.ism14@gmail.com.
² Department of Physics & Electronics, Kamla Nehru Institute of Physical and Social Sciences (KNIPSS) Sultanpur Uttar Pradesh 228118 India.
³ Ferreira Martins & Filhos - Madeiras e Derivados S. A. R. Pinheiro 3 4710-348 Braga Portugal.
⁴ School of Chemistry and Chemical Engineering, Yulin University Yulin City 719000 Shaanxi China.

Abstract

In the present work, Eu²⁺/Dy³⁺ ions doped/co-doped into persistent SrAl₂O₄ microparticles have been developed through solid-state synthesis followed by homogenization and particle size reduction in a ball milling device. These particles have shown a broad and long-persistent afterglow around the 528 nm wavelength of electromagnetic radiation through a broad excitation at around 400 nm. The luminescence intensity was optimized through the selection of different annealing temperatures in the range of 1100 °C to 1500 °C, with intervals of 100 °C. Several structural and optical characterization techniques, such as XRD, SEM, FTIR, thermogravimetric analysis, and photoluminescence, were utilized to judge the preparation and ability of these particles in possible applications in latent fingermark detection on various difficult surfaces. The persistency and stability of these particles were calculated using a digital lux meter.