Innovation and night light in large and small cities. by Saul Estrin (8629173)

Geographical distribution of large cities and small cities. by Saul Estrin (8629173)

“…The Figure reveals two patterns: 1) the maximum level of innovation is higher in large cities (2.53) than in small cities (2.02); 2) among large cities in <b>a</b>, innovation levels in general decrease with nightlight density. …”

Ether Cleavage Decreases the Ion Exchange Capacity of Anion Exchange Membranes by Shakkira Erimban (6882539)

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Ether Cleavage Decreases the Ion Exchange Capacity of Anion Exchange Membranes by Shakkira Erimban (6882539)

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Bacterial abundance in L2 larvae collected from larval flasks inoculated with decreasing quantities of glycerol stock (bacteria source). by Margaret V. Becker (21387776)

Extreme morphological adaptations to accommodate large teeth in fish jaws. by Nick Peoples (21593888)

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nsP4-C483Y or Q192L mutations decrease sensitivity to 4′-FlU. by Peiqi Yin (6533747)

Site distribution and modelled Core Areas for GI-1d-a. by Isabell Schmidt (6331013)

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Regionally distinguished demographic estimates for GI-1d-a based on dataset A (all sites). by Isabell Schmidt (6331013)

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Image 7_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Image 6_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Image 3_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Image 1_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Image 2_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Image 4_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Image 5_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Image 8_Exploration of the diagnostic and prognostic roles of decreased autoantibodies in lung cancer.tif by Ying Ye (72583)

“…Diagnosing malignant small lung nodules (≤3cm) in CT scans remains a challenge in clinical practice.…”

Large teeth and highly protrusible jaws are evolutionarily incompatible. by Nick Peoples (21593888)

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Effect of supplementation of oocyte maturation medium (OMM) with follicular fluid (FF) from small or large follicles on development of embryos to the blastocyst stage. by Verónica M. Negrón-Pérez (20691412)

Visualizations of our causal impact effect analysis of Phase #3 of sterile male releases, with comparisons of the observed data (A, B – red lines represent the intervention area and yellow the non-intervention area), how the observed data after the releases deviated from what was expected before releases at each time period in the intervention area showing a small decrease in the expected numbers of eggs and mosquitoes trapped after the intervention during the mosquito active season (C, D), followed by the cumulative causal effects for the egg density and the adult density in the intervention area showing a small, but not statistically detectable decrease (E, F). by Rachel Morreale (5892011)

“…<p>Visualizations of our causal impact effect analysis of Phase #3 of sterile male releases, with comparisons of the observed data (A, B – red lines represent the intervention area and yellow the non-intervention area), how the observed data after the releases deviated from what was expected before releases at each time period in the intervention area showing a small decrease in the expected numbers of eggs and mosquitoes trapped after the intervention during the mosquito active season (C, D), followed by the cumulative causal effects for the egg density and the adult density in the intervention area showing a small, but not statistically detectable decrease (E, F).…”