AI Article Synopsis
- Lanthanide-doped upconversion nanoparticles (UCNPs) are promising for single-molecule imaging because of their stability and low autofluorescence, but their hydrophobic nature poses challenges for water dispersibility.
- Various surface modification methods, such as ligand exchange and silica coating, were tested, with NOBF and DSPE-PEG significantly enhancing luminescence while other methods caused varying degrees of quenching.
- The study highlights that UCNPs modified with DSPE-PEG showed the best brightness and stability in water, providing important insights into how surface chemistry affects UCNP performance at the single-particle level.
Article Abstract
Lanthanide-doped upconversion nanoparticles (UCNPs) hold promise for single-molecule imaging owing to their excellent photostability and minimal autofluorescence. However, their limited water dispersibility, often from the hydrophobic oleic acid ligand during synthesis, is a challenge. To address this, various surface modification strategies' impact on single-particle upconversion luminescence are studied. UCNPs are made hydrophilic through methods like ligand exchange with dye IR806, HCl or NOBF treatment, silica coating (SiO or mesoporous mSiO), and self-assembly with polymer of DSPE-PEG or F127. The studies revealed that UCNPs modified with NOBF and DSPE-PEG exhibited notably higher single-particle brightness with minimal quenching (3% and 8%, respectively), followed by SiO, F127, IR806, mSiO, and HCl (84% quenching). HCl disrupted UCNPs's crystal lattice, weakening luminescence, while mSiO absorbed solvent molecules, causing luminescence quenching. Energy transfer to IR806 also reduced the brightness. Additionally, a prevalence of upconversion red emission over green is observed, with the red-to-green ratio increasing with irradiance. UCNPs coated with DSPE-PEG exhibited the brightest single-particle luminescence in water, retaining 48% of its original emission due to a lower critical micelle concentration and superior water protection. In summary, the investigation provides valuable insights into the role of surface chemistry on UCNPs at the single-particle level.
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| http://dx.doi.org/10.1002/smll.202309035 | DOI Listing |
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