The linearly decreasing convergence factor a. by Junhao Wei (6816803)

Brain regions with significantly decreased activations for the Raven task are shown in blue. by Morteza Fattahi (15892028)

Diagram of the mechanism by which PFAS causes a decrease in constipation. by Yifan Zhao (659636)

Why does task performance decrease with burst length? by Swathi Anil (17382903)

Statistically significant linear decrease in use of antidepressants, antipsychotics, psychostimulants and nootropic drugs, anxiolytics, sedatives and hypnotics during the observed time period. by Jelena Filimonovic (22305307)

The summarized graph for the values of the coefficients of significant linear trends. by Ekaterina Ivanova (230383)

(A) Side image of epoxy resin-made abutment-analog base and prosthesis; (B) Front image of epoxy resin-made abutment-analog base and prosthesis. by Long Li (6555)

M^pro confers a significant reduction in growth in yeast caused by decreases in a variety of cellular proteins. by Jin Ou (16914305)

Matrix crosslinking decreases cell migration persistence. by Michael Pamonag (12295175)

Join-point regression analysis of the statistically significant linear decrease in use of antidepressants, antipsychotics, psychostimulants and nootropic drugs, anxiolytics, sedatives and hypnotics during the observed time period. by Jelena Filimonovic (22305307)

KDM6A mRNA expression is decreased in PTFE mice. by Simon Lebek (9756148)

General linear mixed model coefficients and significance for species-specific ungulate intensity of use as a function of cattle grazing period. by Kathryn Knodel (20036529)

Join-point regression analysis of the statistically significant linear increase in use of antidementia and antipsychotics during the observed time period. by Jelena Filimonovic (22305307)

FTA card stabilization of YFV RNA decrease at high temperature. by Emily H. Davis (12878086)

Patients with high baseline gut richness and diversity have significantly greater decreases in diversity over time. by Molly B. El Alam (10231830)

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”