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scanning electron microscopy sem imaging  (JEOL)


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    JEOL scanning electron microscopy sem imaging
    Scanning Electron Microscopy Sem Imaging, supplied by JEOL, used in various techniques. Bioz Stars score: 99/100, based on 12662 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/scanning electron microscopy sem imaging/product/JEOL
    Average 99 stars, based on 12662 article reviews
    scanning electron microscopy sem imaging - by Bioz Stars, 2026-06
    99/100 stars

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    Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron <t>microscope</t> <t>(SEM),</t> scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.
    Scanning Electron Microscope Sem Images, supplied by JEOL, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron <t>microscope</t> <t>(SEM),</t> scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.
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    Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron <t>microscope</t> <t>(SEM),</t> scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.
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    Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron <t>microscope</t> <t>(SEM),</t> scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.
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    Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron <t>microscope</t> <t>(SEM),</t> scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.
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    Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron <t>microscope</t> <t>(SEM),</t> scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.
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    sem images  (JEOL)
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    <t>SEM</t> <t>images</t> of the polymer-modified electrodes: ( a ) non-imprinted polymer on the gold electrode (NIP/Au) ( b ) pipecolic acid-imprinted polymer electrode (PA-MIP/Au) after template removal.
    Sem Images, supplied by JEOL, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Image Search Results


    Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron microscope (SEM), scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.

    Journal: Materials Today Bio

    Article Title: Macrophage exosome-engineered nanoplatform with pH-responsive ratiometric photoacoustic and NIR-II fluorescence imaging for guided photothermal immunotherapy of hepatocellular carcinoma

    doi: 10.1016/j.mtbio.2026.103058

    Figure Lengend Snippet: Synthesis and characterization of aCD47-CATE nanoplatform. (A) The preparation of aCD47-CATE nanoplatform. (B) UV-Vis absorption spectra of Croc under different pH. (C) The morphology of the aCD47-CATE nanostructure as visualized by transmission electron microscopy (TEM), scale bar = 100 nm (up) and scanning electron microscope (SEM), scale bar = 200 nm (down). (D) Changes in the zeta potential that occurred during the synthesis steps for both CATE and aCD47-CATE nanoplatform. Data are presented as mean ± SD (n = 3). (E) A characteristic high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) micrograph, presented alongside the associated elemental distribution maps for the aCD47-CATE nanoplatform. (F) NIR-II thermal images of the aCD47-CATE nanoplatform in a phantom under 1064 nm laser irradiation at different power densities (0.5, 1.0, 1.5, 2.0 W/cm 2 ) for 360 s. (G) Graphs depicting the temperature rise for the aCD47-CATE NPs under different laser power at 1064 nm laser irradiation. (H) Multiple heating cycles of aCD47-CATE nanoplatform under 1.0 W/cm 2 at 1064 nm laser irradiation.

    Article Snippet: Transmission electron microscope (TEM) images were captured with a JEOL JEM-2100, and Scanning Electron Microscope (SEM) images were obtained using a JEOL Model JSM-6490.

    Techniques: Transmission Assay, Electron Microscopy, Microscopy, Zeta Potential Analyzer, Irradiation

    SEM images of the polymer-modified electrodes: ( a ) non-imprinted polymer on the gold electrode (NIP/Au) ( b ) pipecolic acid-imprinted polymer electrode (PA-MIP/Au) after template removal.

    Journal: Polymers

    Article Title: Target-Specific Electrochemical Sensing of Pipecolic Acid via Molecular Imprinting

    doi: 10.3390/polym18091066

    Figure Lengend Snippet: SEM images of the polymer-modified electrodes: ( a ) non-imprinted polymer on the gold electrode (NIP/Au) ( b ) pipecolic acid-imprinted polymer electrode (PA-MIP/Au) after template removal.

    Article Snippet: SEM images were captured using a JEOL JSM-7001F (JEOL USA, Inc., Peabody, MA, USA) device, operating at an accelerating voltage of 15 kV, allowing for high-resolution visualization of the polymer surface structure.

    Techniques: Polymer, Modification