microdisk laser particles (Corning Life Sciences)
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Microdisk Laser Particles, supplied by Corning Life Sciences, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
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1) Product Images from "Wavelength-encoded laser particles for massively multiplexed cell tagging"
Article Title: Wavelength-encoded laser particles for massively multiplexed cell tagging
Journal: Nature photonics
doi: 10.1038/s41566-019-0489-0
Figure Legend Snippet: a , Schematic of the LPs production process. b , Structure of the epitaxial wafers used for the fabrication of microdisks. c , Lasing wavelength of microdisks (in air) with increasing design diameters varying from 1.9 to 2.04 μm in steps of 10 nm. Shaded box corresponds to the gain region of the semiconductor (In 0.73 Ga 0.27 As 0.58 P 0.42 ); dashed lines are the calculated cavity-mode resonances for a microdisk with a refractive index n = 3.445. d , Lasing wavelength of four groups of microdisks fabricated with different design diameters in 10 nm steps ( N = 100 per group); standard deviation is ~1 nm. e , SEM image of microdisks after detachment. Inset: close-up of a single microdisk. f , Output curve of laser emission versus pump energy for a typical cavity. g , Typical output emission spectrum of a microdisk above threshold ( E p = 20 pJ). h , Gaussian fit of the lasing peak. i , Histogram of the emission wavelengths of N = 794 different microdisks in Matrigel overlaid with the fluorescence of the active material (In 0.53 Al 0.13 Ga 0.34 As).
Techniques Used: Refractive Index, Standard Deviation, Fluorescence
Figure Legend Snippet: a , Normalized fluorescence spectra of the five different semiconductor materials used in this work; wafer A: In 0.80 Ga 0.20 As 0.44 P 0.56 , wafer B: In 0.73 Ga 0.27 As 0.58 P 0.42 , wafer C: In 0.53 Al 0.13 Ga 0.34 As, wafer D: In 0.53 Al 0.09 Ga 0.38 As, and wafer E: In 0.53 Ga 0.47 As 0.92 P 0.08 . b , Calculated resonance wavelengths of WGM modes with mode-order m , for different microdisk diameters between 2.2 to 2.5 μm. Circles represent possible lasing modes obtainable from the five different wafers with microdisk sizes of 2.3 and 2.4 μm, respectively. c , Normalized laser emission spectra of 400 laser particles in a range from 1170 to 1580 nm with an interval of ~1 nm. All laser particles were pumped by a common laser source.
Techniques Used: Fluorescence
Figure Legend Snippet: a , SEM images of microdisks before and after 1, 2 or 3 coating cycles. b , Silica shell thickness versus reaction cycles ( N ≥ 9 each). Mean ± 95% confidence intervals (CI). c , False-colour cross-sectional SEM image of a coated microdisk cut with focused ion beam. d , EDS analysis of different elements along the diameter of a coated microdisk. e , Wavelength shift of a microdisk versus external refractive index, calculated from FDTD simulations for increasing thicknesses of coating. Grey shaded region corresponds to the typical range for cytoplasm refractive index. f , Sensitivity of the microdisk resonance to external refractive index as a function of coating thickness, calculated for small variations around n 1 = 1.37. g , h , Lasing wavelength versus background refractive index for uncoated (g) and 150 nm coated (h) microdisks on glass ( N = 7 each). Empty circles are experimental data, dashed lines are linear fits.
Techniques Used: Refractive Index