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Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli

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Last updated 17 abril 2025
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Recent developments on BW-II and BW-III ratiometric luminescent nanothermometers for in vivo thermal sensing - ScienceDirect
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Full article: Recent advances in luminescence properties of lanthanide-doped up-conversion nanocrystals and applications for bio-imaging, drug delivery, and optosensing
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Er 3+ doped nanoparticles as upconversion thermometer probes in confined fluids - Physical Chemistry Chemical Physics (RSC Publishing) DOI:10.1039/D3CP02218H
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Pharmaceutics, Free Full-Text
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Christopher Siefe - Application Scientist - Wyatt Technology
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Near‐Infrared Optical Sensing of Biomacromolecules with Upconversion Nanoplatforms - Yan - 2023 - Advanced Photonics Research - Wiley Online Library
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Multicolor tuning of lanthanide-doped nanoparticles by single wavelength excitation.
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
Chris Siefe's research works Stanford University, CA (SU) and other places
Lanthanide-Based Nanosensors: Refining Nanoparticle Responsiveness for Single Particle Imaging of Stimuli
High monodisperse nanospheres Gd2O3: Yb3+, Er3+ with strong upconversion emission fabricated by synergistic chemical method
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