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rectangular glass cover slips  (DWK Life Sciences)

 
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    DWK Life Sciences rectangular glass cover slips
    Rectangular Glass Cover Slips, supplied by DWK Life Sciences, 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/rectangular glass cover slips/product/DWK Life Sciences
    Average 90 stars, based on 1 article reviews
    rectangular glass cover slips - by Bioz Stars, 2026-05
    90/100 stars

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    (a) 3D CAD model of the fourth fluidic device without the top and the bottom <t>rectangular</t> glass cover slips. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the top and the bottom rectangular glass cover slips. (c) 3D printed fluidic device with the integrated top and bottom 24 mm × 60 mm no.1 rectangular glass cover slips. (d) A blue colored food dye solution was pipetted inside the serpentine channel. Serpentine cross-sectional dimensions were 1 mm wide × 2 mm tall.
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    rectangular glass cover slips  (DWK Life Sciences)
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    DWK Life Sciences rectangular glass cover slips
    (a) 3D CAD model of the fourth fluidic device without the top and the bottom <t>rectangular</t> glass cover slips. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the top and the bottom rectangular glass cover slips. (c) 3D printed fluidic device with the integrated top and bottom 24 mm × 60 mm no.1 rectangular glass cover slips. (d) A blue colored food dye solution was pipetted inside the serpentine channel. Serpentine cross-sectional dimensions were 1 mm wide × 2 mm tall.
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    Image Search Results


    (a) 3D CAD model of the fourth fluidic device without the top and the bottom rectangular glass cover slips. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the top and the bottom rectangular glass cover slips. (c) 3D printed fluidic device with the integrated top and bottom 24 mm × 60 mm no.1 rectangular glass cover slips. (d) A blue colored food dye solution was pipetted inside the serpentine channel. Serpentine cross-sectional dimensions were 1 mm wide × 2 mm tall.

    Journal: Biomicrofluidics

    Article Title: Embedding objects during 3D printing to add new functionalities

    doi: 10.1063/1.4958909

    Figure Lengend Snippet: (a) 3D CAD model of the fourth fluidic device without the top and the bottom rectangular glass cover slips. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the top and the bottom rectangular glass cover slips. (c) 3D printed fluidic device with the integrated top and bottom 24 mm × 60 mm no.1 rectangular glass cover slips. (d) A blue colored food dye solution was pipetted inside the serpentine channel. Serpentine cross-sectional dimensions were 1 mm wide × 2 mm tall.

    Article Snippet: In the fourth 3D printed fluidic device, two 24 mm × 60 mm no. 1 (0.13 mm to 0.17 mm thick) rectangular glass cover slips (Catalog No. 12-548-5 P, FisherfinestTM Premium Cover Glass, Fisher Scientific, Pittsburgh, PA, USA) were integrated during 3D printing to form the top and the bottom surfaces of a serpentine channel (Figs. ).

    Techniques:

    (a) 3D CAD model of a serpentine channel mold without the bottom rectangular glass slide. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the bottom rectangular glass slide. (c) 3D printed serpentine channel mold with the integrated bottom 75 mm × 50 mm and 0.96 mm to 1.06 mm thick rectangular glass slide. The cross-sectional dimensions of the serpentine structure were 1 mm × 1 mm.

    Journal: Biomicrofluidics

    Article Title: Embedding objects during 3D printing to add new functionalities

    doi: 10.1063/1.4958909

    Figure Lengend Snippet: (a) 3D CAD model of a serpentine channel mold without the bottom rectangular glass slide. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the bottom rectangular glass slide. (c) 3D printed serpentine channel mold with the integrated bottom 75 mm × 50 mm and 0.96 mm to 1.06 mm thick rectangular glass slide. The cross-sectional dimensions of the serpentine structure were 1 mm × 1 mm.

    Article Snippet: In the fourth 3D printed fluidic device, two 24 mm × 60 mm no. 1 (0.13 mm to 0.17 mm thick) rectangular glass cover slips (Catalog No. 12-548-5 P, FisherfinestTM Premium Cover Glass, Fisher Scientific, Pittsburgh, PA, USA) were integrated during 3D printing to form the top and the bottom surfaces of a serpentine channel (Figs. ).

    Techniques:

    (a) 3D CAD model of the second optical device without the fiber, and the top and the bottom rectangular glass slides. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the fiber, and the top and the bottom rectangular glass slides. (c) The second 3D printed optical device with embedded Corning® Fibrance™ Light-Diffusing Fiber, and the integrated top and bottom 75 mm × 50 mm and 0.96 mm to 1.06 mm thick rectangular glass slides. (d) The device was lit up using a green laser pointer.

    Journal: Biomicrofluidics

    Article Title: Embedding objects during 3D printing to add new functionalities

    doi: 10.1063/1.4958909

    Figure Lengend Snippet: (a) 3D CAD model of the second optical device without the fiber, and the top and the bottom rectangular glass slides. (b) Schematic diagram of the exploded cross-sectional view of Section A–A depicted in (a) with the fiber, and the top and the bottom rectangular glass slides. (c) The second 3D printed optical device with embedded Corning® Fibrance™ Light-Diffusing Fiber, and the integrated top and bottom 75 mm × 50 mm and 0.96 mm to 1.06 mm thick rectangular glass slides. (d) The device was lit up using a green laser pointer.

    Article Snippet: In the fourth 3D printed fluidic device, two 24 mm × 60 mm no. 1 (0.13 mm to 0.17 mm thick) rectangular glass cover slips (Catalog No. 12-548-5 P, FisherfinestTM Premium Cover Glass, Fisher Scientific, Pittsburgh, PA, USA) were integrated during 3D printing to form the top and the bottom surfaces of a serpentine channel (Figs. ).

    Techniques: