Identification of gene expression patterns using planned linear contrasts-1 by Hao Li (31608)

“…Its first significant change in expression was a down-regulation at 16 hr post-OBX. Its expression continued to decrease at 48 hr. …”

Results for a diploid model. by Andrius J. Dagilis (6667628)

The effect of phasic dynamics are robust to noise statistics and linearly related to expression. by Margot C. Bjoring (6269591)

Flow of premises through the study. by Eleni Mantzari (6991172)

“…</p><p>Methods and findings</p><p>The study was conducted between February and May 2023, in 13 licensed premises in England. It used an A-B-A reversal design, set over 3 consecutive 4-weekly periods with “A” representing the nonintervention periods during which standard serving sizes were served, and “B” representing the intervention period when the largest serving size of draught beer (1 imperial pint (568 ml)) was removed from existing ranges so that the largest size available was two-thirds of a pint. …”

Changes in AL (A) and SE (B) according to the treatment time estimation curve in patients given 0.125% atropine. by Zi-Rong Chen (9227618)

“…A larger In4_ALE correlated significantly with larger changes in AL at 6 months after In4_ALE in all myopic children. …”

Table 2 - Early identification of the efficacy of 0.125% atropine treatment for children with Myopia: A prospective pilot study by Zi-Rong Chen (9227618)

Effect of zinc and EBR on MDA, H₂O₂ and O2•⁻ contents of <i>S</i>. <i>lineare</i>. by Yiyang Zhang (3750292)

Gridding Triboelectric Nanogenerator for Raindrop Energy Harvesting by Bolang Cheng (11461820)

“…The peak output power density reaches 110 mW/m², which is 42 times the reported maximum value of 2.6 mW/m² of raindrop energy harvesting TENGs with the size larger than 10 cm². Moreover, the G-TENG can harvest the mechanical energy of raindrops at a wide range of raindrop flow rates from 0.055 to 0.219 mL/(cm²·s). …”

Gridding Triboelectric Nanogenerator for Raindrop Energy Harvesting by Bolang Cheng (11461820)

“…The peak output power density reaches 110 mW/m², which is 42 times the reported maximum value of 2.6 mW/m² of raindrop energy harvesting TENGs with the size larger than 10 cm². Moreover, the G-TENG can harvest the mechanical energy of raindrops at a wide range of raindrop flow rates from 0.055 to 0.219 mL/(cm²·s). …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Specifically, an increase in microenvironment viscosity led to a corresponding local decrease in the catalytic molecular ruthenium ring-opening metathesis polymerization rate, plausibly by restricting diffusional access to active catalytic centers. …”

<strong>Bull trout streamflow and temperature linear SCR model</strong> by Patti Wohner (16398345)

“…Movements of pre-spawning bull trout were larger when between-weekly changes in streamflow decreased, weekly average daily maximum streamflow increased, and weekly average daily maximum water temperature increased. …”