Structured Review

RWD Life Science mouse brain slicing mold
Mouse Brain Slicing Mold, supplied by RWD Life Science, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/mouse brain slicing mold/product/RWD Life Science
Average 86 stars, based on 1 article reviews
Price from $9.99 to $1999.99
mouse brain slicing mold - by Bioz Stars, 2024-07
86/100 stars

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circular molds  (Labconco)


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Bioz Manufacturer Symbol Labconco manufactures this product  
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    Structured Review

    Labconco circular molds
    Circular Molds, supplied by Labconco, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/circular molds/product/Labconco
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    circular molds - by Bioz Stars, 2024-07
    86/100 stars

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    Structured Review

    Technology Development Co silicone mold
    Silicone Mold, supplied by Technology Development Co, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/silicone mold/product/Technology Development Co
    Average 86 stars, based on 1 article reviews
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    silicone mold - by Bioz Stars, 2024-07
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    Structured Review

    Jorch Consulting fungi
    Fungi, supplied by Jorch Consulting, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    fungi - by Bioz Stars, 2024-07
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    Structured Review

    Jorch Consulting fungi
    Fungi, supplied by Jorch Consulting, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/fungi/product/Jorch Consulting
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    fungi - by Bioz Stars, 2024-07
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    Structured Review

    Brinkmann Instruments fungi
    Fungi, supplied by Brinkmann Instruments, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/fungi/product/Brinkmann Instruments
    Average 86 stars, based on 1 article reviews
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    fungi - by Bioz Stars, 2024-07
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    Structured Review

    Sakura Finetek specimen molds
    Specimen Molds, supplied by Sakura Finetek, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/specimen molds/product/Sakura Finetek
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    specimen molds - by Bioz Stars, 2024-07
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    Structured Review

    Elegoo Inc pdms mold
    a , Photograph of the 3D-printed mold. b , Magnified view of <t>the</t> <t>microneedles</t> of the 3D-printed mold. c , Photograph of the barb deformation process using a <t>PDMS</t> mold. d , Magnified view of the microneedles after barb deformation. e , Photograph of the SMART after double molding to PLGA. f , Magnified view of the PLGA microneedles with barbs. g , Photograph of the SMART after gold sputtering. h , Magnified view of the PLGA microneedles with barbs after gold sputtering. i , Photograph of the SMART after transferring and bonding to elastomer. j , Magnified view of the PLGA microneedles with barbs after transfer. k , Photograph of the SMART with microneedles screened by a PDMS slab before Parylene coating. l , Magnified view of the PLGA microneedles with barbs after Parylene coating. m , Photograph of the completed SMART after electrodeposition of gold nanoparticles. n , Magnified view of the PLGA microneedles with barbs after electrodeposition of gold nanoparticles. o , Stretching performance of the SMART and numerical simulation.
    Pdms Mold, supplied by Elegoo Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/pdms mold/product/Elegoo Inc
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    pdms mold - by Bioz Stars, 2024-07
    86/100 stars

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    1) Product Images from "Wireless, Multimodal Monitoring of Organ Health Using 3D-Printed, Barbed, Bioresorbable Stretchable Microneedle Sensor Arrays"

    Article Title: Wireless, Multimodal Monitoring of Organ Health Using 3D-Printed, Barbed, Bioresorbable Stretchable Microneedle Sensor Arrays

    Journal: bioRxiv

    doi: 10.1101/2024.07.16.603523

    a , Photograph of the 3D-printed mold. b , Magnified view of the microneedles of the 3D-printed mold. c , Photograph of the barb deformation process using a PDMS mold. d , Magnified view of the microneedles after barb deformation. e , Photograph of the SMART after double molding to PLGA. f , Magnified view of the PLGA microneedles with barbs. g , Photograph of the SMART after gold sputtering. h , Magnified view of the PLGA microneedles with barbs after gold sputtering. i , Photograph of the SMART after transferring and bonding to elastomer. j , Magnified view of the PLGA microneedles with barbs after transfer. k , Photograph of the SMART with microneedles screened by a PDMS slab before Parylene coating. l , Magnified view of the PLGA microneedles with barbs after Parylene coating. m , Photograph of the completed SMART after electrodeposition of gold nanoparticles. n , Magnified view of the PLGA microneedles with barbs after electrodeposition of gold nanoparticles. o , Stretching performance of the SMART and numerical simulation.
    Figure Legend Snippet: a , Photograph of the 3D-printed mold. b , Magnified view of the microneedles of the 3D-printed mold. c , Photograph of the barb deformation process using a PDMS mold. d , Magnified view of the microneedles after barb deformation. e , Photograph of the SMART after double molding to PLGA. f , Magnified view of the PLGA microneedles with barbs. g , Photograph of the SMART after gold sputtering. h , Magnified view of the PLGA microneedles with barbs after gold sputtering. i , Photograph of the SMART after transferring and bonding to elastomer. j , Magnified view of the PLGA microneedles with barbs after transfer. k , Photograph of the SMART with microneedles screened by a PDMS slab before Parylene coating. l , Magnified view of the PLGA microneedles with barbs after Parylene coating. m , Photograph of the completed SMART after electrodeposition of gold nanoparticles. n , Magnified view of the PLGA microneedles with barbs after electrodeposition of gold nanoparticles. o , Stretching performance of the SMART and numerical simulation.

    Techniques Used: Transferring

    Comparison of the microneedle array after double molding using PDMS and Ecoflex, respectively.
    Figure Legend Snippet: Comparison of the microneedle array after double molding using PDMS and Ecoflex, respectively.

    Techniques Used: Comparison

    a, Design of the cone-shaped PDMS mold with different angles. b, Numerical simulation of the barb deformation process. c, Schematic illustration of barbs deformed by molds of different angles. e-h, Experimental and numerical results of barb deformation using molds of different angles ( e, Original. f, Mold I (35°). g, Mold II (25°). h, Mold III (15°)). i , Relationship of the mold angle and barb angle in experiment and simulation.
    Figure Legend Snippet: a, Design of the cone-shaped PDMS mold with different angles. b, Numerical simulation of the barb deformation process. c, Schematic illustration of barbs deformed by molds of different angles. e-h, Experimental and numerical results of barb deformation using molds of different angles ( e, Original. f, Mold I (35°). g, Mold II (25°). h, Mold III (15°)). i , Relationship of the mold angle and barb angle in experiment and simulation.

    Techniques Used:


    Structured Review

    Millipore silicone mold
    Silicone Mold, supplied by Millipore, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/silicone mold/product/Millipore
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    silicone mold - by Bioz Stars, 2024-07
    86/100 stars

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    silicone mold  (Thermo Fisher)


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    Thermo Fisher silicone mold
    Silicone Mold, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/silicone mold/product/Thermo Fisher
    Average 86 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    silicone mold - by Bioz Stars, 2024-07
    86/100 stars

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    RWD Life Science mouse brain slicing mold
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    https://www.bioz.com/result/fungi/product/Brinkmann Instruments
    Average 86 stars, based on 1 article reviews
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    https://www.bioz.com/result/pdms mold/product/Elegoo Inc
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    Millipore silicone mold
    a , Photograph of the 3D-printed mold. b , Magnified view of <t>the</t> <t>microneedles</t> of the 3D-printed mold. c , Photograph of the barb deformation process using a <t>PDMS</t> mold. d , Magnified view of the microneedles after barb deformation. e , Photograph of the SMART after double molding to PLGA. f , Magnified view of the PLGA microneedles with barbs. g , Photograph of the SMART after gold sputtering. h , Magnified view of the PLGA microneedles with barbs after gold sputtering. i , Photograph of the SMART after transferring and bonding to elastomer. j , Magnified view of the PLGA microneedles with barbs after transfer. k , Photograph of the SMART with microneedles screened by a PDMS slab before Parylene coating. l , Magnified view of the PLGA microneedles with barbs after Parylene coating. m , Photograph of the completed SMART after electrodeposition of gold nanoparticles. n , Magnified view of the PLGA microneedles with barbs after electrodeposition of gold nanoparticles. o , Stretching performance of the SMART and numerical simulation.
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    https://www.bioz.com/result/silicone mold/product/Thermo Fisher
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    silicone mold - by Bioz Stars, 2024-07
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    Image Search Results


    a , Photograph of the 3D-printed mold. b , Magnified view of the microneedles of the 3D-printed mold. c , Photograph of the barb deformation process using a PDMS mold. d , Magnified view of the microneedles after barb deformation. e , Photograph of the SMART after double molding to PLGA. f , Magnified view of the PLGA microneedles with barbs. g , Photograph of the SMART after gold sputtering. h , Magnified view of the PLGA microneedles with barbs after gold sputtering. i , Photograph of the SMART after transferring and bonding to elastomer. j , Magnified view of the PLGA microneedles with barbs after transfer. k , Photograph of the SMART with microneedles screened by a PDMS slab before Parylene coating. l , Magnified view of the PLGA microneedles with barbs after Parylene coating. m , Photograph of the completed SMART after electrodeposition of gold nanoparticles. n , Magnified view of the PLGA microneedles with barbs after electrodeposition of gold nanoparticles. o , Stretching performance of the SMART and numerical simulation.

    Journal: bioRxiv

    Article Title: Wireless, Multimodal Monitoring of Organ Health Using 3D-Printed, Barbed, Bioresorbable Stretchable Microneedle Sensor Arrays

    doi: 10.1101/2024.07.16.603523

    Figure Lengend Snippet: a , Photograph of the 3D-printed mold. b , Magnified view of the microneedles of the 3D-printed mold. c , Photograph of the barb deformation process using a PDMS mold. d , Magnified view of the microneedles after barb deformation. e , Photograph of the SMART after double molding to PLGA. f , Magnified view of the PLGA microneedles with barbs. g , Photograph of the SMART after gold sputtering. h , Magnified view of the PLGA microneedles with barbs after gold sputtering. i , Photograph of the SMART after transferring and bonding to elastomer. j , Magnified view of the PLGA microneedles with barbs after transfer. k , Photograph of the SMART with microneedles screened by a PDMS slab before Parylene coating. l , Magnified view of the PLGA microneedles with barbs after Parylene coating. m , Photograph of the completed SMART after electrodeposition of gold nanoparticles. n , Magnified view of the PLGA microneedles with barbs after electrodeposition of gold nanoparticles. o , Stretching performance of the SMART and numerical simulation.

    Article Snippet: The designed drawing was exported to a 3D printer (ELEGOO Saturn 3 UItra) and printed at a resolution of 10 μm per layer using an exposure time of 7 s. The microneedle array with barbed structures was obtained by using a PDMS mold with cone-shaped cavities to deform the horizontal barbs on the microneedles.

    Techniques: Transferring

    Comparison of the microneedle array after double molding using PDMS and Ecoflex, respectively.

    Journal: bioRxiv

    Article Title: Wireless, Multimodal Monitoring of Organ Health Using 3D-Printed, Barbed, Bioresorbable Stretchable Microneedle Sensor Arrays

    doi: 10.1101/2024.07.16.603523

    Figure Lengend Snippet: Comparison of the microneedle array after double molding using PDMS and Ecoflex, respectively.

    Article Snippet: The designed drawing was exported to a 3D printer (ELEGOO Saturn 3 UItra) and printed at a resolution of 10 μm per layer using an exposure time of 7 s. The microneedle array with barbed structures was obtained by using a PDMS mold with cone-shaped cavities to deform the horizontal barbs on the microneedles.

    Techniques: Comparison

    a, Design of the cone-shaped PDMS mold with different angles. b, Numerical simulation of the barb deformation process. c, Schematic illustration of barbs deformed by molds of different angles. e-h, Experimental and numerical results of barb deformation using molds of different angles ( e, Original. f, Mold I (35°). g, Mold II (25°). h, Mold III (15°)). i , Relationship of the mold angle and barb angle in experiment and simulation.

    Journal: bioRxiv

    Article Title: Wireless, Multimodal Monitoring of Organ Health Using 3D-Printed, Barbed, Bioresorbable Stretchable Microneedle Sensor Arrays

    doi: 10.1101/2024.07.16.603523

    Figure Lengend Snippet: a, Design of the cone-shaped PDMS mold with different angles. b, Numerical simulation of the barb deformation process. c, Schematic illustration of barbs deformed by molds of different angles. e-h, Experimental and numerical results of barb deformation using molds of different angles ( e, Original. f, Mold I (35°). g, Mold II (25°). h, Mold III (15°)). i , Relationship of the mold angle and barb angle in experiment and simulation.

    Article Snippet: The designed drawing was exported to a 3D printer (ELEGOO Saturn 3 UItra) and printed at a resolution of 10 μm per layer using an exposure time of 7 s. The microneedle array with barbed structures was obtained by using a PDMS mold with cone-shaped cavities to deform the horizontal barbs on the microneedles.

    Techniques: