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polyethersulfone pes nanoporous membranes  (Sterlitech corporation)


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    Structured Review

    Sterlitech corporation polyethersulfone pes nanoporous membranes
    NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new <t>polyethersulfone</t> <t>(PES)</t> <t>nanoporous</t> membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.
    Polyethersulfone Pes Nanoporous Membranes, supplied by Sterlitech corporation, used in various techniques. Bioz Stars score: 95/100, based on 222 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/polyethersulfone pes nanoporous membranes/product/Sterlitech corporation
    Average 95 stars, based on 222 article reviews
    polyethersulfone pes nanoporous membranes - by Bioz Stars, 2026-02
    95/100 stars

    Images

    1) Product Images from "Generating tolerance through in situ recruitment of regulatory T cells for allogeneic cell transplantation in a bioengineered lymphoid platform"

    Article Title: Generating tolerance through in situ recruitment of regulatory T cells for allogeneic cell transplantation in a bioengineered lymphoid platform

    Journal: Materials Today Bio

    doi: 10.1016/j.mtbio.2025.102469

    NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new polyethersulfone (PES) nanoporous membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.
    Figure Legend Snippet: NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new polyethersulfone (PES) nanoporous membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.

    Techniques Used: Comparison, Membrane, In Vivo



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    NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new <t>polyethersulfone</t> <t>(PES)</t> <t>nanoporous</t> membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.
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    NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new <t>polyethersulfone</t> <t>(PES)</t> <t>nanoporous</t> membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.
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    NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new <t>polyethersulfone</t> <t>(PES)</t> <t>nanoporous</t> membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.
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    Image Search Results


    NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new polyethersulfone (PES) nanoporous membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.

    Journal: Materials Today Bio

    Article Title: Generating tolerance through in situ recruitment of regulatory T cells for allogeneic cell transplantation in a bioengineered lymphoid platform

    doi: 10.1016/j.mtbio.2025.102469

    Figure Lengend Snippet: NanoLymph design and characterization. (A) Cross-section rendering of NanoLymph device with view of drug and cell reservoirs, silicone drug loading ports on opposing sides, and collagen scaffold. (B) NanoLymph shown to scale in comparison with commercially available M&M TM ; scale bar, 5 mm. (C) SEM image of new polyethersulfone (PES) nanoporous membrane; scale bar, 5 μm. (D) SEM image of PES nanoporous membrane after 9 months of in vivo implantation; scale bar, 5 μm. (E) SEM image of new nylon woven mesh; scale bar 300 μm. (F) SEM image of nylon mesh after 9 months of in vivo implantation; scale bar 300 μm.

    Article Snippet: Nylon nanoporous membranes (100 nm, GVS Filter Technology, Bologna, Italy), polyethersulfone (PES) nanoporous membranes (30 nm; Sterlitech, Washington, US), and nylon meshes (100 μm, 300 μm; GVS Filter Technology, Bologna, Italy) produced using a laser cutter (VLS 2.30, Universal Laser Systems, Arizona, USA) were sterilized by autoclave and then heat pressed at 300 °F for 30 min using the Cricut EasyPress 2.

    Techniques: Comparison, Membrane, In Vivo