Effect of <i>slc43a3</i> deletion on resting blood pressure (systolic and diastolic) and heart rate of male and female WT and KO mice. by Aaron L. Sayler (19797446)

Subjects:

2015–2019 AQI and changes in the concentration of various pollutants in ambient air. by Li-Min Wang (783263)

Subjects:

Micropatterning significantly increases cell density. by Matthew W. Hagen (627944)

“…(B) Micropatterning significantly increases cell density across other culture conditions (p = 0.0002). …”

The 2x2 DID models of current drinking rate. by Duyen Thuy Nguyen (10457356)

Subjects:

Resistivity change rate under declining groundwater table conditions at different times. by Kui Suo (20614613)

Subjects:

Rate of resistivity change at different times under constant groundwater table conditions. by Kui Suo (20614613)

Subjects:

Larger example of stimuli with cue relevant for Task 3. by Marcel F. Hinss (14675457)

Trends in YLDs rates and YLLs rates by sex and age strata in China and the USA, 1990–2019, using Joinpoint regression models. by Chengyue Zhang (1346655)

Subjects:

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. …”

Total tau levels are significantly decreased in the healthy older brains compared to the younger brains. by Shreyasi Chatterjee (3531506)

Synaptopathy at IHC-SGN synapses decreases the peak of the CAP significantly, without changes to peak latency and width. by Maral Budak (6680351)