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atomic force microscopy 5420 scanning probe microscope  (Keysight Technologies)

 
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    Structured Review

    Keysight Technologies atomic force microscopy 5420 scanning probe microscope
    A new approach to engineer fibrillar microenvironments with tunable structural and mechanical features using PEG thiol-ene photo-click hydrogels. (A) Schematic illustration of a fibrous hydrogel platform with tunable stiffness, structure, and composition by integration of thiol-ene photo-click chemistry, electrospinning, and combinatory protein array technology. (B) The electrospun fibre networks in dry and hydrated states were demonstrated by representative fluorescent confocal <t>microscopy</t> images. Scale bars: 10 μm. (C) Quantification of fibre diameters before (dry) and after swelling (hydrated) from confocal images; *** versus dry for p < 0.001. n = 8. (D) Young’s modulus of flat hydrogels and fibre networks determined by AFM large spherical probe (diameter 100 μm) indentation with Hertz contact mechanics model; *** versus soft for p < 0.001. n = 6 slides.
    Atomic Force Microscopy 5420 Scanning Probe Microscope, supplied by Keysight Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/atomic force microscopy 5420 scanning probe microscope/product/Keysight Technologies
    Average 90 stars, based on 1 article reviews
    atomic force microscopy 5420 scanning probe microscope - by Bioz Stars, 2026-04
    90/100 stars

    Images

    1) Product Images from "Biomimetic soft fibrous hydrogels for contractile and pharmacologically responsive smooth muscle"

    Article Title: Biomimetic soft fibrous hydrogels for contractile and pharmacologically responsive smooth muscle

    Journal: Acta biomaterialia

    doi: 10.1016/j.actbio.2018.05.015

    A new approach to engineer fibrillar microenvironments with tunable structural and mechanical features using PEG thiol-ene photo-click hydrogels. (A) Schematic illustration of a fibrous hydrogel platform with tunable stiffness, structure, and composition by integration of thiol-ene photo-click chemistry, electrospinning, and combinatory protein array technology. (B) The electrospun fibre networks in dry and hydrated states were demonstrated by representative fluorescent confocal microscopy images. Scale bars: 10 μm. (C) Quantification of fibre diameters before (dry) and after swelling (hydrated) from confocal images; *** versus dry for p < 0.001. n = 8. (D) Young’s modulus of flat hydrogels and fibre networks determined by AFM large spherical probe (diameter 100 μm) indentation with Hertz contact mechanics model; *** versus soft for p < 0.001. n = 6 slides.
    Figure Legend Snippet: A new approach to engineer fibrillar microenvironments with tunable structural and mechanical features using PEG thiol-ene photo-click hydrogels. (A) Schematic illustration of a fibrous hydrogel platform with tunable stiffness, structure, and composition by integration of thiol-ene photo-click chemistry, electrospinning, and combinatory protein array technology. (B) The electrospun fibre networks in dry and hydrated states were demonstrated by representative fluorescent confocal microscopy images. Scale bars: 10 μm. (C) Quantification of fibre diameters before (dry) and after swelling (hydrated) from confocal images; *** versus dry for p < 0.001. n = 8. (D) Young’s modulus of flat hydrogels and fibre networks determined by AFM large spherical probe (diameter 100 μm) indentation with Hertz contact mechanics model; *** versus soft for p < 0.001. n = 6 slides.

    Techniques Used: Protein Array, Confocal Microscopy



    Similar Products

    atomic force microscopy 5420 scanning probe microscope  (Keysight Technologies)
    90
    Keysight Technologies atomic force microscopy 5420 scanning probe microscope
    A new approach to engineer fibrillar microenvironments with tunable structural and mechanical features using PEG thiol-ene photo-click hydrogels. (A) Schematic illustration of a fibrous hydrogel platform with tunable stiffness, structure, and composition by integration of thiol-ene photo-click chemistry, electrospinning, and combinatory protein array technology. (B) The electrospun fibre networks in dry and hydrated states were demonstrated by representative fluorescent confocal <t>microscopy</t> images. Scale bars: 10 μm. (C) Quantification of fibre diameters before (dry) and after swelling (hydrated) from confocal images; *** versus dry for p < 0.001. n = 8. (D) Young’s modulus of flat hydrogels and fibre networks determined by AFM large spherical probe (diameter 100 μm) indentation with Hertz contact mechanics model; *** versus soft for p < 0.001. n = 6 slides.
    Atomic Force Microscopy 5420 Scanning Probe Microscope, supplied by Keysight Technologies, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/atomic force microscopy 5420 scanning probe microscope/product/Keysight Technologies
    Average 90 stars, based on 1 article reviews
    atomic force microscopy 5420 scanning probe microscope - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    A new approach to engineer fibrillar microenvironments with tunable structural and mechanical features using PEG thiol-ene photo-click hydrogels. (A) Schematic illustration of a fibrous hydrogel platform with tunable stiffness, structure, and composition by integration of thiol-ene photo-click chemistry, electrospinning, and combinatory protein array technology. (B) The electrospun fibre networks in dry and hydrated states were demonstrated by representative fluorescent confocal microscopy images. Scale bars: 10 μm. (C) Quantification of fibre diameters before (dry) and after swelling (hydrated) from confocal images; *** versus dry for p < 0.001. n = 8. (D) Young’s modulus of flat hydrogels and fibre networks determined by AFM large spherical probe (diameter 100 μm) indentation with Hertz contact mechanics model; *** versus soft for p < 0.001. n = 6 slides.

    Journal: Acta biomaterialia

    Article Title: Biomimetic soft fibrous hydrogels for contractile and pharmacologically responsive smooth muscle

    doi: 10.1016/j.actbio.2018.05.015

    Figure Lengend Snippet: A new approach to engineer fibrillar microenvironments with tunable structural and mechanical features using PEG thiol-ene photo-click hydrogels. (A) Schematic illustration of a fibrous hydrogel platform with tunable stiffness, structure, and composition by integration of thiol-ene photo-click chemistry, electrospinning, and combinatory protein array technology. (B) The electrospun fibre networks in dry and hydrated states were demonstrated by representative fluorescent confocal microscopy images. Scale bars: 10 μm. (C) Quantification of fibre diameters before (dry) and after swelling (hydrated) from confocal images; *** versus dry for p < 0.001. n = 8. (D) Young’s modulus of flat hydrogels and fibre networks determined by AFM large spherical probe (diameter 100 μm) indentation with Hertz contact mechanics model; *** versus soft for p < 0.001. n = 6 slides.

    Article Snippet: To determine the elastic modulus of samples, the samples were hydrated and measured by an atomic force microscopy (AFM, 5420 Scanning Probe Microscope, Keysight Technologies Inc., Santa Rosa, CA).

    Techniques: Protein Array, Confocal Microscopy