Mean standard errors across time points for the outcome of social stigma. by Ana Beato (20489933)

Subjects:

Means with standard errors across time points for the outcome of social distance. by Ana Beato (20489933)

Subjects:

Characterization of safety pharmacology of WT BMP9 in rats. by Tobias G. Schips (21799838)

Subjects:

Means with standard errors across time points for the outcome of intergroup anxiety. by Ana Beato (20489933)

Subjects:

Characteristics of the sample. by Ana Beato (20489933)

Subjects:

(a) Convex, triangular, and concave geometry at a constant vertex angle. by Amirhossein Favakeh (21417884)

Effect of <i>BgILP8</i> RNAi on secretory cell length and protein in <i>Blattella germanica.</i> by Viviana Pagone (22086362)

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

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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)

“…The results demonstrate that higher temperatures lead to lower gas uptake and slower hydrate formation kinetics, as increased temperature reduces heat distribution efficiency. 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. …”

Parameter estimates from the final models for <i>M</i>. <i>mercenaria</i> & <i>M</i>. <i>arenaria</i> mortality. by Teagan McMahon (20108036)

Fig 6 - by Teagan McMahon (20108036)

The proportional change in maximum height for the five study groups. by Teagan McMahon (20108036)

Raw metabolomic data. by Bhuripit Saraphol (20855573)

“…A low BCS is associated with decreased milk production and fertility. While genetic and nutritional factors have previously been associated with BCS, their effects are often moderate. …”

Schematic diagram of the experimental workflow. by Bhuripit Saraphol (20855573)

“…A low BCS is associated with decreased milk production and fertility. While genetic and nutritional factors have previously been associated with BCS, their effects are often moderate. …”