Optical Temperature Sensing and Bioimaging of Aquatic Invertebrates With Nd<sup>3+</sup>‐ Sensitized Core@Shell Nanoparticles

Przybylska, Dominika; Jurga, Natalia; Ekner‐Grzyb, Anna; Stopikowska, Natalia; Grześkowiak, Bartosz F.; Runowski, Marcin; Grzyb, Tomasz

doi:10.1002/adom.202401499

Advanced Optical Materials

2024

DOI: 10.1002/adom.202401499

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Optical Temperature Sensing and Bioimaging of Aquatic Invertebrates With Nd³⁺‐ Sensitized Core@Shell Nanoparticles

Dominika Przybylska,

Natalia Jurga,

Anna Ekner‐Grzyb

et al.

Abstract: In biomedical and optical applications, multifunctional upconverting nanoparticles (UCNPs) play an essential role where non‐invasive temperature sensing and imaging are necessary. UCNPs smaller than 20 nm, which can be excited under 808 nm wavelength, are particularly promising in this area and can be implemented in humans or other mammals. However, new versatile nanoprobes are still needed for biology, especially for challenging studies of small aquatic invertebrates. Such tools allow better monitoring and un… Show more

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Multifunctional Near-Infrared Luminescence Performance of Nd3+ Doped SrSnO3 Phosphor

Hou,

Li,

Huang

et al. 2024

Photonics

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The phosphors with persistent luminescence in the NIR (near-infrared) region and the NIR-to-NIR Stokes luminescence properties have received considerable attention owing to their inclusive application prospects in the in vivo imaging field. In this paper, Nd3+ doped SrSnO3 phosphors with remarkable NIR emission performance were prepared using a high temperature solid state reaction method; the phase structure, morphology, and luminescence properties were discussed systematically. The SrSnO3 host exhibits broadband NIR emission (800–1300 nm) with absorptions in the near ultraviolet region. Nd3+ ions emerge excellent NIR-to-NIR Stokes luminescence under 808 nm laser excitation, with maximum emission at around ~1068 nm. The concentration-dependent luminescence properties, temperature dependent emission, and the luminescence decay curves of Nd3+ in the SrSnO3 host were also studied. The Nd3+ doped SrSnO3 phosphors exhibit exceptional thermal stability; the integrated emission intensity can retain approximately 66% at 423 K compared to room temperature. Most importantly, NIR persistent luminescence also can be observed for the SrSnO3:Nd3+ samples, which is in the first and second biological windows. A possible mechanism was proposed for the persistent NIR luminescence of Nd3+ based on the thermo-luminescence spectra. Consequently, the exciting results indicate that multifunctional NIR luminescence has been successfully realized in the SrSnO3:Nd3+ phosphors.

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Multifunctional Near-Infrared Luminescence Performance of Nd3+ Doped SrSnO3 Phosphor

Hou,

Li,

Huang

et al. 2024

Photonics

View full text Add to dashboard Cite

show abstract

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Optical Temperature Sensing and Bioimaging of Aquatic Invertebrates With Nd³⁺‐ Sensitized Core@Shell Nanoparticles

Cited by 1 publication

References 74 publications

Multifunctional Near-Infrared Luminescence Performance of Nd3+ Doped SrSnO3 Phosphor

Multifunctional Near-Infrared Luminescence Performance of Nd3+ Doped SrSnO3 Phosphor

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Optical Temperature Sensing and Bioimaging of Aquatic Invertebrates With Nd3+‐ Sensitized Core@Shell Nanoparticles

Cited by 1 publication

References 74 publications

Multifunctional Near-Infrared Luminescence Performance of Nd3+ Doped SrSnO3 Phosphor

Multifunctional Near-Infrared Luminescence Performance of Nd3+ Doped SrSnO3 Phosphor

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Optical Temperature Sensing and Bioimaging of Aquatic Invertebrates With Nd³⁺‐ Sensitized Core@Shell Nanoparticles