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energy dispersive x ray spectrometer edx  (JEOL)


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    JEOL energy dispersive x ray spectrometer edx
    Structural characterization of HC. (A) Schematic illustration of the synthesis of HC. (B, C) TEM images of Cu 5.4 O and HC. <t>(D)</t> <t>Energy-dispersive</t> <t>X-ray</t> spectroscopy (EDS) mapping images of C, N, Cu and O for HC. (E) Zeta potentials and hydrodynamic size distribution, and (F) XRD analysis of Cu 5.4 O, HAs and HC. (G, H) XPS spectra of Cu 2p of Cu 5.4 O and HC. (I) X-ray-induced Auger electron spectroscopy (XAES) spectra of the Cu 5.4 O. (J) Size stability of HC in different solvents (Water, PBS, FBS, DMEM) on days 3, 5, and 7 at a concentration of 200 μg/mL, with a sample size of n = 3 (mean ± SD). (∗P < 0.05, ∗∗P < 0.01, ∗∗∗P < 0.001).
    Energy Dispersive X Ray Spectrometer Edx, supplied by JEOL, used in various techniques. Bioz Stars score: 99/100, based on 11329 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/energy dispersive x ray spectrometer edx/product/JEOL
    Average 99 stars, based on 11329 article reviews
    energy dispersive x ray spectrometer edx - by Bioz Stars, 2026-05
    99/100 stars

    Images

    1) Product Images from "Smart microenvironment-adaptive nanocatalytic hydrogel for sequential antibacterial, anti-inflammatory, and regenerative therapy of biofilm-infected wounds"

    Article Title: Smart microenvironment-adaptive nanocatalytic hydrogel for sequential antibacterial, anti-inflammatory, and regenerative therapy of biofilm-infected wounds

    Journal: Bioactive Materials

    doi: 10.1016/j.bioactmat.2026.02.043

    Structural characterization of HC. (A) Schematic illustration of the synthesis of HC. (B, C) TEM images of Cu 5.4 O and HC. (D) Energy-dispersive X-ray spectroscopy (EDS) mapping images of C, N, Cu and O for HC. (E) Zeta potentials and hydrodynamic size distribution, and (F) XRD analysis of Cu 5.4 O, HAs and HC. (G, H) XPS spectra of Cu 2p of Cu 5.4 O and HC. (I) X-ray-induced Auger electron spectroscopy (XAES) spectra of the Cu 5.4 O. (J) Size stability of HC in different solvents (Water, PBS, FBS, DMEM) on days 3, 5, and 7 at a concentration of 200 μg/mL, with a sample size of n = 3 (mean ± SD). (∗P < 0.05, ∗∗P < 0.01, ∗∗∗P < 0.001).
    Figure Legend Snippet: Structural characterization of HC. (A) Schematic illustration of the synthesis of HC. (B, C) TEM images of Cu 5.4 O and HC. (D) Energy-dispersive X-ray spectroscopy (EDS) mapping images of C, N, Cu and O for HC. (E) Zeta potentials and hydrodynamic size distribution, and (F) XRD analysis of Cu 5.4 O, HAs and HC. (G, H) XPS spectra of Cu 2p of Cu 5.4 O and HC. (I) X-ray-induced Auger electron spectroscopy (XAES) spectra of the Cu 5.4 O. (J) Size stability of HC in different solvents (Water, PBS, FBS, DMEM) on days 3, 5, and 7 at a concentration of 200 μg/mL, with a sample size of n = 3 (mean ± SD). (∗P < 0.05, ∗∗P < 0.01, ∗∗∗P < 0.001).

    Techniques Used: Spectroscopy, Concentration Assay



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    Image Search Results


    Structural characterization of HC. (A) Schematic illustration of the synthesis of HC. (B, C) TEM images of Cu 5.4 O and HC. (D) Energy-dispersive X-ray spectroscopy (EDS) mapping images of C, N, Cu and O for HC. (E) Zeta potentials and hydrodynamic size distribution, and (F) XRD analysis of Cu 5.4 O, HAs and HC. (G, H) XPS spectra of Cu 2p of Cu 5.4 O and HC. (I) X-ray-induced Auger electron spectroscopy (XAES) spectra of the Cu 5.4 O. (J) Size stability of HC in different solvents (Water, PBS, FBS, DMEM) on days 3, 5, and 7 at a concentration of 200 μg/mL, with a sample size of n = 3 (mean ± SD). (∗P < 0.05, ∗∗P < 0.01, ∗∗∗P < 0.001).

    Journal: Bioactive Materials

    Article Title: Smart microenvironment-adaptive nanocatalytic hydrogel for sequential antibacterial, anti-inflammatory, and regenerative therapy of biofilm-infected wounds

    doi: 10.1016/j.bioactmat.2026.02.043

    Figure Lengend Snippet: Structural characterization of HC. (A) Schematic illustration of the synthesis of HC. (B, C) TEM images of Cu 5.4 O and HC. (D) Energy-dispersive X-ray spectroscopy (EDS) mapping images of C, N, Cu and O for HC. (E) Zeta potentials and hydrodynamic size distribution, and (F) XRD analysis of Cu 5.4 O, HAs and HC. (G, H) XPS spectra of Cu 2p of Cu 5.4 O and HC. (I) X-ray-induced Auger electron spectroscopy (XAES) spectra of the Cu 5.4 O. (J) Size stability of HC in different solvents (Water, PBS, FBS, DMEM) on days 3, 5, and 7 at a concentration of 200 μg/mL, with a sample size of n = 3 (mean ± SD). (∗P < 0.05, ∗∗P < 0.01, ∗∗∗P < 0.001).

    Article Snippet: The morphology and elemental distributions of HCOC were observed using scanning electron microscopy (SEM) and transmission electron microscopy (TEM) equipped with an energy-dispersive X-ray spectrometer (EDX) on a JEM-F200 electron microscope at 200 kV (JEOL, Japan).

    Techniques: Spectroscopy, Concentration Assay

    X-ray photoelectron spectra of the FeNi-LDH1-Se 05 catalyst: (a) high-resolution Fe 2p spectrum, (b) high-resolution Ni 2p spectrum, (c) O 1s spectrum, and (d) Se 3d spectrum.

    Journal: RSC Advances

    Article Title: Selenium-activated monolithic FeNi layered double hydroxide electrodes: binder-free, self-supported architectures for durable alkaline oxygen evolution

    doi: 10.1039/d6ra02304e

    Figure Lengend Snippet: X-ray photoelectron spectra of the FeNi-LDH1-Se 05 catalyst: (a) high-resolution Fe 2p spectrum, (b) high-resolution Ni 2p spectrum, (c) O 1s spectrum, and (d) Se 3d spectrum.

    Article Snippet: Elemental composition was analyzed via energy-dispersive X-ray spectroscopy (EDX) using a JEOL JCM-6000 PLUS system.

    Techniques: