Dasheng Lu scite author profile

Single‐particle fluorescent probes with the capacity to infer specific intracellular conditions, for instance, have great application potential in the realm of biomedicine. Imaging techniques that improve our understanding of the fluorescence processes at a single‐particle level are thus instrumental in actualizing this potential. This study demonstrates the importance of implementing synergistic single‐particle spectroscopic techniques to gain a more comprehensive understanding of the optical anisotropy exhibited by upconverting erbium and ytterbium co‐doped lithium yttrium tetrafluoride (LiYF4:Yb3+/Er3+) microparticles. More specifically, optical trapping and single‐particle polarized emission spectroscopy is herein leveraged to provide a plausible explanation for the spatial emission intensity distribution variation exhibited by LiYF4:Yb3+/Er3+ microparticles during hyperspectral imaging. By probing the polarized emission stemming from a single, optically trapped LiYF4:Yb3+/Er3+ microparticle, it is possible to find evidence that the emission intensity anisotropy exhibited by the respective microparticles during hyperspectral imaging arises as a consequence of the selection rules governing the emission probability in rare‐earth (RE3+) ions doped into a uniaxially birefringent host matrix such as LiYF4.

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Exploring Single-Nanoparticle Dynamics at High Temperature by Optical Tweezers

Labrador‐Páez

Ortiz‐Rivero

et al. 2020

Nano Lett.

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The experimental determination of the velocity of a colloidal nanoparticle (v NP ) has recently became a hot topic. The thermal dependence of v NP is still left to be explored although it is a valuable source of information allowing, for instance, the discernment between ballistic and diffusive regimes. Optical tweezers (OTs) constitute a tool especially useful for the experimental determination of v NP although they have only been capable of determining it at room temperature. In this work, we demonstrate that it is possible to determine the temperature dependence of the diffusive velocity of a single colloidal nanoparticle by analyzing the temperature dependence of optical forces. The comparison between experimental results and theoretical predictions allowed us to discover the impact that the anomalous temperature dependence of water properties has on the dynamics of colloidal nanoparticles in this temperature range.

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Effect of phosphorus on the microstructure and stress rupture properties in an Fe-Ni-Cr base superalloy

Sun

Guo

et al. 1997

Metall Mater Trans A

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This article describes the effect of phosphorus on the microstructure and stress rupture property at 650 ЊC in an Fe-Ni-Cr base superalloy. The results showed that phosphorus markedly improved the intergranular precipitation in the range of 0.0005 to 0.016 wt pct, which facilitated M 23 C 6 and M 3 B 2 precipitation but inhibited the formation of MC carbide. A too high phosphorus addition (0.051 wt pct P) resulted in an excessive precipitation at grain boundaries, while a too low phosphorus content (0.0005 wt pct P) led to many precipitate-free grain boundaries. Phosphorus also enlarged the size of the ␥' particles and lowered its stability, that -Ni 3 Ti preferred to form in the alloy with 0.051 wt pct P. Due to the improvement of the microstructure, appropriate amount of P content significantly prolonged the rupture life of the alloys in the range of 0.0005 to 0.016 wt pct. The peak value was 660 hours at 0.016 wt pct, more than 4 times that of the alloy with 0.0005 wt pct phosphorus, but phosphorus reduced the fracture elongation. The mechanism by which phosphorus influenced the alloy is discussed.

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Nanojet Trapping of a Single Sub‐10 nm Upconverting Nanoparticle in the Full Liquid Water Temperature Range

Pedroni

Labrador‐Páez

et al. 2021

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Upconverting nanoparticles (UCNPs) have been used as optical probes in a great variety of scenarios ranging from cells to animal models. When optically trapped, a single UCNP can be remotely manipulated making possible, for instance, thermal scanning in the surroundings of a living cell. When conventional optics is used, the stability of an optically trapped UCNP is very limited. Its reduced size leads to optical potentials comparable to thermal energy, and up to now, stable optical trapping of a UCNP has been demonstrated only close to room temperature. This fact limits their use above room temperature, for instance, the use to investigate protein denaturalization that occurs in the 40–50 °C range. In this work, stable optical trapping of a single UCNP in the 20–90 °C range has been demonstrated by using a photonic nanojet. The use of an optically trapped microsphere makes it possible to overcome the diffraction limit producing another optical trap of smaller size and enhanced strength. This simple strategy leads not only to an improvement in the thermal stability of the optical trap but also to an enhancement of the emission intensity generated by the optically trapped UCNP.

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Single‐Cell Biodetection by Upconverting Microspinners

Ortiz‐Rivero

Prorok

Skowickł

et al. 2019

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Near-infrared-light-mediated optical tweezing of individual upconverting particles has enabled all-optical single-cell studies, such as intracellular thermal sensing and minimally invasive cytoplasm investigations. Furthermore, the intrinsic optical birefringence of upconverting particles renders them lightdriven luminescent spinners with a yet unexplored potential in biomedicine. In this work, the use of upconverting spinners is showcased for the accurate and specific detection of single-cell and single-bacteria attachment events, through real-time monitoring of the rotation velocity of the spinner. The physical mechanisms linking single-attachment to the angular deceleration of upconverting spinners are discussed in detail. Concomitantly, the upconversion emission generated by the spinner is harnessed for simultaneous thermal sensing and thermal control during the attachment event. Results here included demonstrate the potential of upconverting particles for the development of fast, highsensitivity, and cost-effective systems for single-cell biodetection. www.advancedsciencenews.com Figure 6. a) Time evolution of rotation velocity of a surface functionalized single UCSPN during the process of adhesion of a single bacterium. The control data, obtained with a nonfunctionalized UCSPN, is also shown for comparison. This control data has been obtained during the process of interaction between a single bacterium and the nonfunctionalized UCSPN. The bacterium-UCSPN friction produces a transient decrease in the angular velocity. b) Sequential optical images of both functionalized and nonfunctionalized UCSPN obtained when a bacterium circulates in their proximity. Note, that bacterium adhesion is only observed for the surface functionalized UCSPN. 9 of 9) www.advancedsciencenews.com (

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Dasheng Lu

Hyperspectral Imaging and Optical Trapping: Complementary Tools for Assessing Direction‐Dependent Polarized Emission from Single Upconverting LiYF₄:Yb³⁺/Er³⁺ Microparticles

Exploring Single-Nanoparticle Dynamics at High Temperature by Optical Tweezers

Effect of phosphorus on the microstructure and stress rupture properties in an Fe-Ni-Cr base superalloy

Nanojet Trapping of a Single Sub‐10 nm Upconverting Nanoparticle in the Full Liquid Water Temperature Range

Single‐Cell Biodetection by Upconverting Microspinners

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Dasheng Lu

Hyperspectral Imaging and Optical Trapping: Complementary Tools for Assessing Direction‐Dependent Polarized Emission from Single Upconverting LiYF4:Yb3+/Er3+ Microparticles

Exploring Single-Nanoparticle Dynamics at High Temperature by Optical Tweezers

Effect of phosphorus on the microstructure and stress rupture properties in an Fe-Ni-Cr base superalloy

Nanojet Trapping of a Single Sub‐10 nm Upconverting Nanoparticle in the Full Liquid Water Temperature Range

Single‐Cell Biodetection by Upconverting Microspinners

Contact Info

Product

Resources

About

Hyperspectral Imaging and Optical Trapping: Complementary Tools for Assessing Direction‐Dependent Polarized Emission from Single Upconverting LiYF₄:Yb³⁺/Er³⁺ Microparticles