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Showing 1 - 20 results of 1,857 for search '(((( via ((we decrease) OR (nn decrease)) ) OR ( a largest decrease ))) OR ( via large decrease ))', query time: 0.50s Refine Results
  1. 1
    Continuous Viscoelasticity Measurement of Cell Spheroids via Microfluidic Electrical Aspiration

    Continuous Viscoelasticity Measurement of Cell Spheroids via Microfluidic Electrical Aspiration by Heyi Chen (19930197)

    Published 2024
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  2. 2
    Tissue, days post-infection (dpi) and the top 10 most significant genes with increased and decreased expression with valid gene symbols for the response contrasts.

    Tissue, days post-infection (dpi) and the top 10 most significant genes with increased and decreased expression with valid gene symbols for the response contrasts. by Gillian P. McHugo (8965919)

    Published 2025
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  3. 3
    High-Reflectivity Force-Chromic Photonic Crystal Elastic Materials Based on Nanospheres within an Elastomer for Applications in Sensing and Textile Fields

    High-Reflectivity Force-Chromic Photonic Crystal Elastic Materials Based on Nanospheres within an Elastomer for Applications in Sensing and Textile Fields by Zhichuang Qi (20539399)

    Published 2025
    “…PS@SiO<sub>2</sub> core–shell nanospheres with a high refractive index while reducing the risk of microplasticity are ideal for preparing FPMs. In this work, we explored the preparation method of PS@SiO<sub>2</sub> nanospheres and prepared force-chromic photonic crystal elastomers (FPEs) by embedding them into di(ethylene glycol) ethyl ether acrylate (DEGEEA) and polyethylene glycol monophenyl ester acrylate (PEGPEA) matrices via the coassembly method. …”
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  4. 4
    High-Reflectivity Force-Chromic Photonic Crystal Elastic Materials Based on Nanospheres within an Elastomer for Applications in Sensing and Textile Fields

    High-Reflectivity Force-Chromic Photonic Crystal Elastic Materials Based on Nanospheres within an Elastomer for Applications in Sensing and Textile Fields by Zhichuang Qi (20539399)

    Published 2025
    “…PS@SiO<sub>2</sub> core–shell nanospheres with a high refractive index while reducing the risk of microplasticity are ideal for preparing FPMs. In this work, we explored the preparation method of PS@SiO<sub>2</sub> nanospheres and prepared force-chromic photonic crystal elastomers (FPEs) by embedding them into di(ethylene glycol) ethyl ether acrylate (DEGEEA) and polyethylene glycol monophenyl ester acrylate (PEGPEA) matrices via the coassembly method. …”
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  5. 5
    High-Reflectivity Force-Chromic Photonic Crystal Elastic Materials Based on Nanospheres within an Elastomer for Applications in Sensing and Textile Fields

    High-Reflectivity Force-Chromic Photonic Crystal Elastic Materials Based on Nanospheres within an Elastomer for Applications in Sensing and Textile Fields by Zhichuang Qi (20539399)

    Published 2025
    “…PS@SiO<sub>2</sub> core–shell nanospheres with a high refractive index while reducing the risk of microplasticity are ideal for preparing FPMs. In this work, we explored the preparation method of PS@SiO<sub>2</sub> nanospheres and prepared force-chromic photonic crystal elastomers (FPEs) by embedding them into di(ethylene glycol) ethyl ether acrylate (DEGEEA) and polyethylene glycol monophenyl ester acrylate (PEGPEA) matrices via the coassembly method. …”
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  6. 6
    Highly Sensitive and Selective Electrochemical Sensor via Cu-BTC/Au@Cu-BTC Modified Screen-Printed Electrode for the Detection of Chemical Agents

    Highly Sensitive and Selective Electrochemical Sensor via Cu-BTC/Au@Cu-BTC Modified Screen-Printed Electrode for the Detection of Chemical Agents by Xiaosen Li (6263651)

    Published 2025
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  7. 7
    GI-1d-a: Comparison of estimates of people for dataset A (left bar) and B (right bar) per region. The largest discrepancies occur in areas of NE, SE and SW Germany and adjacent regions.

    GI-1d-a: Comparison of estimates of people for dataset A (left bar) and B (right bar) per region. The largest discrepancies occur in areas of NE, SE and SW Germany and adjacent reg... by Isabell Schmidt (6331013)

    Published 2025
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  8. 8
    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles

    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

    Published 2025
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  9. 9
    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles

    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

    Published 2025
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  10. 10
    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles

    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

    Published 2025
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  11. 11
    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles

    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

    Published 2025
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  12. 12
    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles

    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

    Published 2025
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  13. 13
    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles

    High-Temperature Resistance, Lightweight, and Thermally Insulating Silica Aerogel via Doping Hollow Silica Nanoparticles by Mingyang Yang (1405321)

    Published 2025
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  14. 14
    Innovation, nightlights and a continuous measure of city size.

    Innovation, nightlights and a continuous measure of city size. by Saul Estrin (8629173)

    Published 2024
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  15. 15
    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations

    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations by Pengxiang Si (5676260)

    Published 2024
    “…This work offers a promising strategy to extend the lifespan, increase the sustainability, and decrease the cost of semicrystalline polymers. …”
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  16. 16
    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations

    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations by Pengxiang Si (5676260)

    Published 2024
    “…This work offers a promising strategy to extend the lifespan, increase the sustainability, and decrease the cost of semicrystalline polymers. …”
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  17. 17
    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations

    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations by Pengxiang Si (5676260)

    Published 2024
    “…This work offers a promising strategy to extend the lifespan, increase the sustainability, and decrease the cost of semicrystalline polymers. …”
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  18. 18
    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations

    Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations by Pengxiang Si (5676260)

    Published 2024
    “…This work offers a promising strategy to extend the lifespan, increase the sustainability, and decrease the cost of semicrystalline polymers. …”
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  19. 19
    Selection frequencies plotted in decreasing order.

    Selection frequencies plotted in decreasing order. by Hannah P. Rowe (7830599)

    Published 2025
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  20. 20
    BAR-CAT: Targeted Recovery of Synthetic Genes via Barcode-Directed CRISPR-dCas9 Enrichment

    BAR-CAT: Targeted Recovery of Synthetic Genes via Barcode-Directed CRISPR-dCas9 Enrichment by Natanya Villegas (20912585)

    Published 2025
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