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significant decrease » significant increase (Expand Search), significantly increased (Expand Search)
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small decrease » small increased (Expand Search)
significant decrease » significant increase (Expand Search), significantly increased (Expand Search)
significantly small » significantly smaller (Expand Search), significantly impact (Expand Search), significantly impair (Expand Search)
small decrease » small increased (Expand Search)
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721
Voltage-Assisted Sonication for the Generation of Liquid Metal Particles
Published 2025“…Mechanical agitation effectively breaks up bulk liquid metal into small particles that can be used for various applications. …”
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722
Voltage-Assisted Sonication for the Generation of Liquid Metal Particles
Published 2025“…Mechanical agitation effectively breaks up bulk liquid metal into small particles that can be used for various applications. …”
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723
Voltage-Assisted Sonication for the Generation of Liquid Metal Particles
Published 2025“…Mechanical agitation effectively breaks up bulk liquid metal into small particles that can be used for various applications. …”
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724
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725
Effect of Molecular Structure on the B3LYP-Computed HOMO–LUMO Gap: A Structure −Property Relationship Using Atomic Signatures
Published 2025“…The atomic fragments containing π-bonds in various aromatic compounds were found to be the most significant atomic Signatures, explaining nearly 50% of the variance in the data, with regression coefficients that decreased <i>E</i><sub>gap</sub>. …”
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726
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727
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728
Supporting datasets for all figures.
Published 2025“…Inhibition of P2X7R with small molecule antagonist AZ10606120, for 72 hours significantly decreased U251 cell number (p < 0.0001), and significantly increased tumour cell death, as evidenced by increased LDH release (p < 0.001). …”
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729
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730
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731
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732
Enterocolitis severity increases with DSS concentration.
Published 2025“…<b>(D)</b> Cellular proliferation, as measured by number of Ki67-<i>p</i>ositive cells within small intestinal crypts, decreased significantly in 2% DSS. …”
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733
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734
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735
Transmission electron microscopy (TEM) photographs.
Published 2025“…<b>B-D</b>: At 3 days to 2 weeks after injury, collagenous fibers and myofibroblasts significantly increased in the stroma, and the EBM remained absent (Magnification=7000). …”
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736
Effect of CO<sub>2</sub> injection on asphaltene deposition.
Published 2025“…Microscale NMR analysis confirms that clay-asphaltene aggregates preferentially block large pores, reducing reservoir heterogeneity and enhancing CO<sub>2</sub> sequestration in medium/small pores. Macroscale long-core experiments highlight the significance of high clay mineral content for geological sequestration, showing that the CO<sub>2</sub> sequestration rate increases from 43.15% to 48.21% as clay content rises from 8.35% to 29.92%. …”
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737
Effect of clay content on IFT.
Published 2025“…Microscale NMR analysis confirms that clay-asphaltene aggregates preferentially block large pores, reducing reservoir heterogeneity and enhancing CO<sub>2</sub> sequestration in medium/small pores. Macroscale long-core experiments highlight the significance of high clay mineral content for geological sequestration, showing that the CO<sub>2</sub> sequestration rate increases from 43.15% to 48.21% as clay content rises from 8.35% to 29.92%. …”
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738
Effect of clay content on crude oil viscosity.
Published 2025“…Microscale NMR analysis confirms that clay-asphaltene aggregates preferentially block large pores, reducing reservoir heterogeneity and enhancing CO<sub>2</sub> sequestration in medium/small pores. Macroscale long-core experiments highlight the significance of high clay mineral content for geological sequestration, showing that the CO<sub>2</sub> sequestration rate increases from 43.15% to 48.21% as clay content rises from 8.35% to 29.92%. …”
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739
Effect of pressure on asphaltene deposition.
Published 2025“…Microscale NMR analysis confirms that clay-asphaltene aggregates preferentially block large pores, reducing reservoir heterogeneity and enhancing CO<sub>2</sub> sequestration in medium/small pores. Macroscale long-core experiments highlight the significance of high clay mineral content for geological sequestration, showing that the CO<sub>2</sub> sequestration rate increases from 43.15% to 48.21% as clay content rises from 8.35% to 29.92%. …”
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740