Energy Transfer between Tm-Doped Upconverting Nanoparticles and a Small Organic Dye with Large Stokes Shift

DOI：10.3390/bios9010009 期刊：Biosensors 出版年份：2019 更新时间：2025-09-23 15:22:29

摘要： Lanthanide-doped upconverting nanoparticles (UCNP) are being extensively studied for bioapplications due to their unique photoluminescence properties and low toxicity. Interest in RET applications involving UCNP is also increasing, but due to factors such as large sizes, ion emission distributions within the particles, and complicated energy transfer processes within the UCNP, there are still many questions to be answered. In this study, four types of core and core-shell NaYF4-based UCNP co-doped with Yb3+ and Tm3+ as sensitizer and activator, respectively, were investigated as donors for the Methyl 5-(8-decanoylbenzo[1,2-d:4,5-d']bis([1,3]dioxole)-4-yl)-5-oxopentanoate (DBD-6) dye. The possibility of resonance energy transfer (RET) between UCNP and the DBD-6 attached to their surface was demonstrated based on the comparison of luminescence intensities, band ratios, and decay kinetics. The architecture of UCNP influenced both the luminescence properties and the energy transfer to the dye: UCNP with an inert shell were the brightest, but their RET efficiency was the lowest (17%). Nanoparticles with Tm3+ only in the shell have revealed the highest RET efficiencies (up to 51%) despite the compromised luminescence due to surface quenching.

关键词： time-resolved luminescence core shell UCNP DBD dye resonance energy transfer

作者： Anna López de Guere?u，Philipp Bastian，Pablo Wessig，Leonard John，Michael U. Kumke

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研究目的

Investigating resonance energy transfer between Tm-doped upconverting nanoparticles and a small organic dye with large Stokes shift.

研究成果

The study demonstrated RET between UCNP and DBD-6 dye, with efficiency influenced by UCNP architecture. UCNP with inert shells had high brightness but low RET efficiency (17%), while those with Tm3+ only in the shell showed the highest RET efficiencies (up to 51%) despite lower luminescence. This highlights the trade-off between luminescence intensity and RET efficiency, and the importance of ion placement for optimizing energy transfer in biosensing applications.

研究不足

Theoretical calculations are limited by uncertainties in parameters such as quantum yields. The dipole-dipole interaction assumption may not be ideal for lanthanide ions. Surface quenching competes with energy transfer, especially in samples with ions close to the surface. The orientation of the dye transition dipole moment relative to the UCNP surface may reduce RET efficiency.

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Nd:YAG laser Quanta Ray Spectra-Physics
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ICCD camera iStar DH720-18V-73 Andor Technology
Recording upconversion luminescence spectra

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Spectrograph Shamrock SR 303i Andor Technology
Dispersing light for spectral analysis

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UV/Vis Spectrometer Lambda 750 PerkinElmer
Measuring absorption spectra of DBD-6 dye

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Transmission Electron Microscope Tecnai G2 20 FEI/Thermo Fisher Scientific
Structural and size investigation of UCNP

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X-ray Diffractometer D5005 Siemens AG
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Syringe Pump 200 Touch Screen Series Cole-Parmer
Slow injection of shell precursor material during UCNP synthesis

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Therminol 66 FRAGOL GmbH+Co. KG
Used as a solvent in UCNP synthesis to shorten reaction time

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