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Image Search Results
Journal: Scientific Reports
Article Title: Synthesis, characterization and application of new nanodemulsifier in oil industries
doi: 10.1038/s41598-025-31152-5
Figure Lengend Snippet: Steps of preparation of the nanocomposite ZrO 2 .B 2 O 3 - [CTAB].
Article Snippet: Moreover, the morphology of the prepared
Techniques:
![XRD spectra of ( a ) ZrO 2 .B 2 O 3 NPs ( b ) ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_0041/pmc12800041/pmc12800041__41598_2025_31152_Fig2_HTML.jpg)
Journal: Scientific Reports
Article Title: Synthesis, characterization and application of new nanodemulsifier in oil industries
doi: 10.1038/s41598-025-31152-5
Figure Lengend Snippet: XRD spectra of ( a ) ZrO 2 .B 2 O 3 NPs ( b ) ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.
Article Snippet: Moreover, the morphology of the prepared
Techniques:
![EDS spectrum of the ( a )ZrO 2 .B 2 O 3 NPs and ( b ) ZrO₂·B₂O₃-[CTAB] nanocomposite.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_0041/pmc12800041/pmc12800041__41598_2025_31152_Fig3_HTML.jpg)
Journal: Scientific Reports
Article Title: Synthesis, characterization and application of new nanodemulsifier in oil industries
doi: 10.1038/s41598-025-31152-5
Figure Lengend Snippet: EDS spectrum of the ( a )ZrO 2 .B 2 O 3 NPs and ( b ) ZrO₂·B₂O₃-[CTAB] nanocomposite.
Article Snippet: Moreover, the morphology of the prepared
Techniques:
![FESEM of ( a ) ZrO 2 .B 2 O 3 NPs ( b ) ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_0041/pmc12800041/pmc12800041__41598_2025_31152_Fig4_HTML.jpg)
Journal: Scientific Reports
Article Title: Synthesis, characterization and application of new nanodemulsifier in oil industries
doi: 10.1038/s41598-025-31152-5
Figure Lengend Snippet: FESEM of ( a ) ZrO 2 .B 2 O 3 NPs ( b ) ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.
Article Snippet: Moreover, the morphology of the prepared
Techniques:
![TEM images of ( a ) ZrO 2 .B 2 O 3 NPs and ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_0041/pmc12800041/pmc12800041__41598_2025_31152_Fig5_HTML.jpg)
Journal: Scientific Reports
Article Title: Synthesis, characterization and application of new nanodemulsifier in oil industries
doi: 10.1038/s41598-025-31152-5
Figure Lengend Snippet: TEM images of ( a ) ZrO 2 .B 2 O 3 NPs and ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.
Article Snippet: Moreover, the morphology of the prepared
Techniques:
![FT-IR spectra of ( a) ZrO 2 .B 2 O 3 NPs and ( b ) ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_0041/pmc12800041/pmc12800041__41598_2025_31152_Fig6_HTML.jpg)
Journal: Scientific Reports
Article Title: Synthesis, characterization and application of new nanodemulsifier in oil industries
doi: 10.1038/s41598-025-31152-5
Figure Lengend Snippet: FT-IR spectra of ( a) ZrO 2 .B 2 O 3 NPs and ( b ) ZrO 2 .B 2 O 3 - [CTAB] nanocomposite.
Article Snippet: Moreover, the morphology of the prepared
Techniques:
Journal: Bioactive Materials
Article Title: Electrically conductive biopolymer-based hydrogels and fibrous materials fabricated using 3D printing and electrospinning for cardiac tissue engineering
doi: 10.1016/j.bioactmat.2025.05.014
Figure Lengend Snippet: (A) 3D bioprinting of cell-laden constructs using MeTro/GelMA bioink. (i) Schematic representation of lattice scaffold bioprinting with HUVECs- and cardiomyocytes/cardiac fibroblasts -laden MeTro/GelMA bioinks, distinguished by green and red food colors for imaging. (ii) Immunostaining against sarcomeric α-actinin (red), CD31 (green), and DAPI (blue) at day 7 post bioprinting. (iii) Schematic depicting vascularized cardiac construct bioprinting using HUVECs-laden MeTro/GelMA and cardiomyocytes/cardiac fibroblasts/HUVECs-laden GelMA bioinks. (iv) Vascularized cardiac construct immediately post-printing, and (v) after photo-cross-linking and washing. Green and red food colors distinguish MeTro/GelMA and GelMA bioinks for imaging. (vi) Cross-sectional fluorescence image of the vascularized cardiac construct. (vii) Viability assessment of HUVECs (MeTro/GelMA bioink) and cardiomyocytes/cardiac fibroblasts/HUVECs (GelMA bioink) within constructs. (viii) Live/dead staining at day 10 post bioprinting. (ix) Immunostaining against sarcomeric α-actinin (red), CD31 (green), and DAPI (blue) at day 10 post bioprinting, with HUVECs (green) and cardiomyocytes/cardiac fibroblasts/HUVECs (red) highlighted. Reproduced with permission from Ref. Copyright © 2020 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim. (B) Phase-contrast images showing VICs elongation and alignment over time. Scale bar: 50 μm. (C) Fluorescent images of VICs in the middle layer: Integrin β1 (green), F-actin (yellow), Nuclei (blue), Cell membrane (red). Scale bar: 100 μm. Reproduced with permission from Ref. Copyright © 2018 MDPI.
Article Snippet: Reproduced with permission from Ref. [ ] Copyright © 2023 WILEY‐VCH
Techniques: Construct, Imaging, Immunostaining, Fluorescence, Staining, Membrane
Journal: Bioactive Materials
Article Title: Electrically conductive biopolymer-based hydrogels and fibrous materials fabricated using 3D printing and electrospinning for cardiac tissue engineering
doi: 10.1016/j.bioactmat.2025.05.014
Figure Lengend Snippet: (A) Microstructure and electrical conductivity of bPEI-AuNP-collagen hydrogels. (i) Schematic representation of hydrogel formation. (ii) Photographs of various hydrogels before and after gelation. (iii) SEM images of critically point-dried hydrogels with different gold nanoparticle types, alongside quantitative graphs of electrical conductivity measurements using two-point and four-point analysis. Scale bars: 2 μm. (B) Drug delivery and contractility enhancement in cardiomyocytes by bPEI-AuNPs. (i) Muscle motion-based analysis of engineered cardiac tissue contractility over time. (ii) Confocal projections of hiPSC-derived cardiomyocyte-laden tissue constructs stained for sarcomeric-α-actinin and troponin I at 7 and 16 days post-fabrication. Data are presented as mean ± SD. Scale bars: yellow: 25 μm; white: 4 μm. Reproduced with permission from Ref. Copyright © 2023 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim. (C) G-GNR nanocomposite bioink 3D bioprinting. a) Schematic representation of the bioprinting process using G-GNR nanocomposite bioink, with an inset displaying the bioprinted 30-layered construct. b) Visualization of the printing procedure along x, y, and z axes. (iii) Microscopic observation of stacked layers using G-GNR nanocomposite bioink. (iv) Bioprinting of constructs with varying inner grids, where green beads were embedded in G-GNR nanocomposite bioink to highlight the printed fibers. (D) Bioprinted cardiac tissue Construct. (i) Pseudo-3D bright field image showing homogeneous cell distribution in the bioprinted construct using G-GNR nanocomposite bioink. Fluorescently labeled cardiomyocytes in red and cardiac fibroblasts in green observed after printing. (ii-iii) Fluorescence images of bioprinted cardiac cells within G-GNR nanocomposite bioink-printed constructs on days 5 and 12, respectively. (iv) Presto Blue assay indicating no significant differences in cell proliferation between GelMA/alginate bioink and G-GNR nanocomposite bioink-printed constructs. (v) Dry weight change of cell-laden G-GNR nanocomposite bioink-printed constructs during culture. (vi) Maintenance of morphology and inner grids during culture. (vii) Immunostaining revealing phenotypic differences in cardiac tissues within GelMA/alginate bioink and G-GNR nanocomposite bioink-printed constructs. (viii) Quantification of Cx-43 expression. (ix) Spontaneous beating rates of GelMA/alginate bioink and G-GNR nanocomposite bioink-printed constructs. Reproduced with permission from Ref. Copyright © 2017 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim.
Article Snippet: Reproduced with permission from Ref. [ ] Copyright © 2023 WILEY‐VCH
Techniques: Derivative Assay, Construct, Staining, Labeling, Fluorescence, Immunostaining, Expressing
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: Schematic illustration of the fabrication process of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: Tensile strength of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: COF of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: Thermal conductivity of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: Electrical conductivity of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: TG (a), DTG (b), and DSC (c) curves of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: Lg E ′ (a) and tan δ (b) vs temperature of MXene/NBR nanocomposites at different loadings.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: XRD patterns of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques:
Journal: ACS Omega
Article Title: MXene/NBR Nanocomposites with Excellent Thermal Conductivity and Wear Resistance Damping Properties
doi: 10.1021/acsomega.5c01894
Figure Lengend Snippet: SEM images (a–e) and TEM images (f) of MXene/NBR nanocomposites.
Article Snippet: The micromorphology of Ti 2 AlC 3 , MXene, and
Techniques: