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commercially available kit  (Beyotime)


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    Structured Review

    Beyotime commercially available kit
    Schematics of the fabrication and application process of the bio-inspired living hydrogel. (a) Living hydrogels were fabricated with 3D microstructures and seeded with blood-derived elements <t>(RBCs</t> <t>and</t> <t>PLTs)</t> on their surfaces. (b) The living hydrogel demonstrated the ability to regulate oxygen release, promote hemostasis, eradicate bacteria and accelerate wound healing in vivo . RBCs: Red blood cells, PLTs: Platelets, BP QDs: Black phosphorus quantum dots. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
    Commercially Available Kit, supplied by Beyotime, 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/commercially available kit/product/Beyotime
    Average 90 stars, based on 1 article reviews
    commercially available kit - by Bioz Stars, 2026-03
    90/100 stars

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    1) Product Images from "Living hydrogel with blood derived elements for wound healing"

    Article Title: Living hydrogel with blood derived elements for wound healing

    Journal: Materials Today Bio

    doi: 10.1016/j.mtbio.2025.102002

    Schematics of the fabrication and application process of the bio-inspired living hydrogel. (a) Living hydrogels were fabricated with 3D microstructures and seeded with blood-derived elements (RBCs and PLTs) on their surfaces. (b) The living hydrogel demonstrated the ability to regulate oxygen release, promote hemostasis, eradicate bacteria and accelerate wound healing in vivo . RBCs: Red blood cells, PLTs: Platelets, BP QDs: Black phosphorus quantum dots. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
    Figure Legend Snippet: Schematics of the fabrication and application process of the bio-inspired living hydrogel. (a) Living hydrogels were fabricated with 3D microstructures and seeded with blood-derived elements (RBCs and PLTs) on their surfaces. (b) The living hydrogel demonstrated the ability to regulate oxygen release, promote hemostasis, eradicate bacteria and accelerate wound healing in vivo . RBCs: Red blood cells, PLTs: Platelets, BP QDs: Black phosphorus quantum dots. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Techniques Used: Derivative Assay, Bacteria, In Vivo

    Fabrication and characterization of the living hydrogel. (a) Schematic illustration of the preparation procedure of living hydrogels with 3D microstructures. (b) Representative optical image of the living hydrogel dressing. Scale bar is 100 μm. (c, d) Typical SEM images of the living hydrogel dressing's cross-section (c) and surface (d), without any cells loaded. The scale bars are 50 μm in both images. (e, f) Representative fluorescent images of RBCs and PLTs before (e) and after (f) being seeded onto the surface of hydrogel. The scale bars represent 50 μm (e) and 25 μm (f). (g) SEM image of the 3D hydrogel surface seeded with RBCs and PLTs. The scale bar is 50 μm.
    Figure Legend Snippet: Fabrication and characterization of the living hydrogel. (a) Schematic illustration of the preparation procedure of living hydrogels with 3D microstructures. (b) Representative optical image of the living hydrogel dressing. Scale bar is 100 μm. (c, d) Typical SEM images of the living hydrogel dressing's cross-section (c) and surface (d), without any cells loaded. The scale bars are 50 μm in both images. (e, f) Representative fluorescent images of RBCs and PLTs before (e) and after (f) being seeded onto the surface of hydrogel. The scale bars represent 50 μm (e) and 25 μm (f). (g) SEM image of the 3D hydrogel surface seeded with RBCs and PLTs. The scale bar is 50 μm.

    Techniques Used:



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    Image Search Results


    Schematics of the fabrication and application process of the bio-inspired living hydrogel. (a) Living hydrogels were fabricated with 3D microstructures and seeded with blood-derived elements (RBCs and PLTs) on their surfaces. (b) The living hydrogel demonstrated the ability to regulate oxygen release, promote hemostasis, eradicate bacteria and accelerate wound healing in vivo . RBCs: Red blood cells, PLTs: Platelets, BP QDs: Black phosphorus quantum dots. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Journal: Materials Today Bio

    Article Title: Living hydrogel with blood derived elements for wound healing

    doi: 10.1016/j.mtbio.2025.102002

    Figure Lengend Snippet: Schematics of the fabrication and application process of the bio-inspired living hydrogel. (a) Living hydrogels were fabricated with 3D microstructures and seeded with blood-derived elements (RBCs and PLTs) on their surfaces. (b) The living hydrogel demonstrated the ability to regulate oxygen release, promote hemostasis, eradicate bacteria and accelerate wound healing in vivo . RBCs: Red blood cells, PLTs: Platelets, BP QDs: Black phosphorus quantum dots. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Article Snippet: The commercially available kit (Beyotime) was performed to monitor the viability of RBCs and PLTs.

    Techniques: Derivative Assay, Bacteria, In Vivo

    Fabrication and characterization of the living hydrogel. (a) Schematic illustration of the preparation procedure of living hydrogels with 3D microstructures. (b) Representative optical image of the living hydrogel dressing. Scale bar is 100 μm. (c, d) Typical SEM images of the living hydrogel dressing's cross-section (c) and surface (d), without any cells loaded. The scale bars are 50 μm in both images. (e, f) Representative fluorescent images of RBCs and PLTs before (e) and after (f) being seeded onto the surface of hydrogel. The scale bars represent 50 μm (e) and 25 μm (f). (g) SEM image of the 3D hydrogel surface seeded with RBCs and PLTs. The scale bar is 50 μm.

    Journal: Materials Today Bio

    Article Title: Living hydrogel with blood derived elements for wound healing

    doi: 10.1016/j.mtbio.2025.102002

    Figure Lengend Snippet: Fabrication and characterization of the living hydrogel. (a) Schematic illustration of the preparation procedure of living hydrogels with 3D microstructures. (b) Representative optical image of the living hydrogel dressing. Scale bar is 100 μm. (c, d) Typical SEM images of the living hydrogel dressing's cross-section (c) and surface (d), without any cells loaded. The scale bars are 50 μm in both images. (e, f) Representative fluorescent images of RBCs and PLTs before (e) and after (f) being seeded onto the surface of hydrogel. The scale bars represent 50 μm (e) and 25 μm (f). (g) SEM image of the 3D hydrogel surface seeded with RBCs and PLTs. The scale bar is 50 μm.

    Article Snippet: The commercially available kit (Beyotime) was performed to monitor the viability of RBCs and PLTs.

    Techniques: