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Showing 1 - 20 results of 2,298 for search '(( a linear decrease ) OR ((( _ largest decrease ) OR ( via linear decrease ))))', query time: 0.49s Refine Results
  1. 1
    The results of linear mixed model.

    The results of linear mixed model. by Soheila Qanbari (20455173)

    Published 2024
    “…The tDCS group demonstrated a significant decrease in AMT of MF and TrA/IO muscles (P < 0.05) and an increase in N80 amplitude (P = 0.027), with no significant changes in the control group. …”
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  2. 2
    The linearly decreasing convergence factor a.

    The linearly decreasing convergence factor a. by Junhao Wei (6816803)

    Published 2025
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  3. 3
    A Locally Linear Dynamic Strategy for Manifold Learning.

    A Locally Linear Dynamic Strategy for Manifold Learning. by Weifan Wang (4669081)

    Published 2025
    “…For 10-30% noise, where the Hebbian network employs a local linear transform, learning selectively increases signal direction alignment (blue) while simultaneously decreasing noise direction alignment (orange). …”
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  4. 4
    Strain-Insensitive, Crosstalk-Suppressed, Ultrawide-Linearity Iontronic Tactile Skin from a Synergistic Segment-Embedded Strategy

    Strain-Insensitive, Crosstalk-Suppressed, Ultrawide-Linearity Iontronic Tactile Skin from a Synergistic Segment-Embedded Strategy by Yanchao Zhao (5129174)

    Published 2025
    “…However, skin-attachable sensor arrays still suffer from strain interference and signal crosstalk under stretching or bending, particularly on curved or deformable surfaces. Here, we present a stretchable tactile array that is both strain-insensitive and crosstalk-suppressed, achieved via a hierarchically segmented design that mitigates lateral and vertical deformations synergistically. …”
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  5. 5
    Strain-Insensitive, Crosstalk-Suppressed, Ultrawide-Linearity Iontronic Tactile Skin from a Synergistic Segment-Embedded Strategy

    Strain-Insensitive, Crosstalk-Suppressed, Ultrawide-Linearity Iontronic Tactile Skin from a Synergistic Segment-Embedded Strategy by Yanchao Zhao (5129174)

    Published 2025
    “…However, skin-attachable sensor arrays still suffer from strain interference and signal crosstalk under stretching or bending, particularly on curved or deformable surfaces. Here, we present a stretchable tactile array that is both strain-insensitive and crosstalk-suppressed, achieved via a hierarchically segmented design that mitigates lateral and vertical deformations synergistically. …”
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  6. 6
    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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  7. 7
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  8. 8
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  9. 9
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  10. 10
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  11. 11
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  12. 12
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  13. 13
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  14. 14
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  15. 15
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  16. 16
    Heteroscedastic linear mixed model main results, estimating the volume (ml) of beer sold per day on the transformed (cube root) scale, on the original scale and on the relative scale, covariate coefficients shown in Table A in S3 Appendix (<i>n</i> = 12).

    Heteroscedastic linear mixed model main results, estimating the volume (ml) of beer sold per day on the transformed (cube root) scale, on the original scale and on the relative sca... by Eleni Mantzari (6991172)

    Published 2024
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  17. 17
    Ultrahigh Subcooling Dropwise Condensation Heat Transfer on Slippery Liquid-like Monolayer Grafted Surfaces

    Ultrahigh Subcooling Dropwise Condensation Heat Transfer on Slippery Liquid-like Monolayer Grafted Surfaces by Ting-en Huang (19700357)

    Published 2024
    “…Finally, only a mild decrease in the heat transfer coefficient of 20.3% after 100 h of condensation test at <i>T</i><sub>sub</sub> of 60 K is reported. …”
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  18. 18
    Ultrahigh Subcooling Dropwise Condensation Heat Transfer on Slippery Liquid-like Monolayer Grafted Surfaces

    Ultrahigh Subcooling Dropwise Condensation Heat Transfer on Slippery Liquid-like Monolayer Grafted Surfaces by Ting-en Huang (19700357)

    Published 2024
    “…Finally, only a mild decrease in the heat transfer coefficient of 20.3% after 100 h of condensation test at <i>T</i><sub>sub</sub> of 60 K is reported. …”
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  19. 19
    Ultrahigh Subcooling Dropwise Condensation Heat Transfer on Slippery Liquid-like Monolayer Grafted Surfaces

    Ultrahigh Subcooling Dropwise Condensation Heat Transfer on Slippery Liquid-like Monolayer Grafted Surfaces by Ting-en Huang (19700357)

    Published 2024
    “…Finally, only a mild decrease in the heat transfer coefficient of 20.3% after 100 h of condensation test at <i>T</i><sub>sub</sub> of 60 K is reported. …”
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  20. 20
    Estimation of the coefficients of a generalised linear model of posttraumatic stress symptomatology.

    Estimation of the coefficients of a generalised linear model of posttraumatic stress symptomatology. by Beatriz Arregui-Gallego (21553735)

    Published 2025
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