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point decrease » point increase (Expand Search)
nn decrease » _ decrease (Expand Search), mean decrease (Expand Search), gy decreased (Expand Search)
w decrease » we decrease (Expand Search), _ decrease (Expand Search), _ decreased (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
point decrease » point increase (Expand Search)
nn decrease » _ decrease (Expand Search), mean decrease (Expand Search), gy decreased (Expand Search)
w decrease » we decrease (Expand Search), _ decrease (Expand Search), _ decreased (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
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1401
Selection of crossing point.
Published 2025“…The simulation results indicate that the improved genetic algorithm reduced the supply load from 0.678 to 0.535, labor costs from 1832 yuan to 1790 yuan, and operational time by approximately 39.5%, from 48 seconds to 29.5 seconds. Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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1402
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1403
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1404
Synthesis and Properties of Calcium Tetraorganylalanates with [Me<sub>4−<i>n</i></sub>AlPh<sub><i>n</i></sub>]<sup>−</sup> Anions
Published 2008“…With an increasing number of methyl groups the melting points decrease from 210 °C for the tetraphenylalanate <b>2</b> to 20 °C for the tetramethylalanate <b>6</b>.…”
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1405
Optical Activity and Dehydration-Driven Switching of Magnetic Properties in Enantiopure Cyanido-Bridged Co<sup>II</sup><sub>3</sub>W<sup>V</sup><sub>2</sub> Trigonal Bipyramids
Published 2015“…The unique enantiopure {[Λ-Co<sup>II</sup>((<i>R</i>)-mpm)<sub>2</sub>]<sub>3</sub>[W<sup>V</sup>(CN)<sub>8</sub>]<sub>2</sub>}·9H<sub>2</sub>O [(<i>R</i>)-<b>1</b>] and {[Δ-Co<sup>II</sup>((<i>S</i>)-mpm)<sub>2</sub>]<sub>3</sub>[W<sup>V</sup>(CN)<sub>8</sub>]<sub>2</sub>}·9H<sub>2</sub>O [(<i>S</i>)-<b>1</b>], where mpm = α-methylpyridinemethanol, magnetic spongelike materials, crystallizing in the chiral <i>P</i>2<sub>1</sub> space group, are constructed of cyanido-bridged {Co<sub>3</sub>W<sub>2</sub>} trigonal bipyramids with three <i>cis</i>-[Co<sup>II</sup>(mpm)<sub>2</sub>(μ-NC)<sub>2</sub>] moieties in equatorial sites and two [W<sup>V</sup>(CN)<sub>8</sub>]<sup>3–</sup> units in apical positions. …”
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1406
Optical Activity and Dehydration-Driven Switching of Magnetic Properties in Enantiopure Cyanido-Bridged Co<sup>II</sup><sub>3</sub>W<sup>V</sup><sub>2</sub> Trigonal Bipyramids
Published 2015“…The unique enantiopure {[Λ-Co<sup>II</sup>((<i>R</i>)-mpm)<sub>2</sub>]<sub>3</sub>[W<sup>V</sup>(CN)<sub>8</sub>]<sub>2</sub>}·9H<sub>2</sub>O [(<i>R</i>)-<b>1</b>] and {[Δ-Co<sup>II</sup>((<i>S</i>)-mpm)<sub>2</sub>]<sub>3</sub>[W<sup>V</sup>(CN)<sub>8</sub>]<sub>2</sub>}·9H<sub>2</sub>O [(<i>S</i>)-<b>1</b>], where mpm = α-methylpyridinemethanol, magnetic spongelike materials, crystallizing in the chiral <i>P</i>2<sub>1</sub> space group, are constructed of cyanido-bridged {Co<sub>3</sub>W<sub>2</sub>} trigonal bipyramids with three <i>cis</i>-[Co<sup>II</sup>(mpm)<sub>2</sub>(μ-NC)<sub>2</sub>] moieties in equatorial sites and two [W<sup>V</sup>(CN)<sub>8</sub>]<sup>3–</sup> units in apical positions. …”
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1407
Copy numbers of circulating BamHI-W DNA and three BART-miRNAs at diagnosis and changes after treatment.
Published 2016“…(A) The copy numbers of BamHI-W DNA before treatment were significantly decreased three months after treatment. …”
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1408
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1409
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1410
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1412
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1413
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1414
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1417
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1418
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1419
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1420