Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Wetland classification scheme for the contemporary period. by Nic Gedney (19762301)

Summary maps of hedonic and aversive shifts produced by GABA-A agonism and AMPA antagonism. by Alexis Faure (247166)

“…Criteria for including a site as hedonic was an increase >10 in ‘liking’ reactions and a decrease or no change in ‘disliking’ reactions. …”

Table_1_Clostridioides difficile Colonization Is Differentially Associated With Gut Microbiome Profiles by Infant Feeding Modality at 3–4 Months of Age.pdf by Kelsea M. Drall (8112032)

“…EBF infants colonized with C. difficile had an increased relative abundance of Firmicutes and Proteobacteria, decreased relative abundance of Bifidobacteriaceae, greater microbiota alpha-diversity, greater detectable fecal short chain fatty acids (SCFA), and lower detectable fecal secretory Immunoglobulin A (sIgA) than those not colonized. …”

Fig 8 - by Xiaoshi Jin (15675049)

Fig 7 - by Xiaoshi Jin (15675049)

Fig 9 - by Xiaoshi Jin (15675049)

Fig 5 - by Xiaoshi Jin (15675049)

Plots of FEV₁ (upper left), FVC (upper right), TLC (lower left) and TLCO (lower right) values expressed in % pred. (<i>y</i>-axis) against <i>z</i>-scores (<i>x</i>-axis... by Piotr W. Boros (21446186)

GFP-Osy localizes to pore canals. by Yiwen Wang (666361)

Wetlands over the lowland Amazon basin from the Hess product [19,20]. by Nic Gedney (19762301)

Decadal seasonality of the hydrological cycle over the wetland regions. by Nic Gedney (19762301)

Myeloid lineage is affected by csrnp1a knockdown. by Jaime Espina (106906)

“…The <i>spi1</i> changes are accompanied by a significant decrease in proliferation (showed as the number of H3P within the <i>spi1</i> signal area) (E, F, and G). …”

Fig 6 - by Xiaoshi Jin (15675049)

Structural and Adhesive Properties of Cellulosic Mucilage: A Molecular-Level Investigation by Kamonthira Wichai (20386623)

“…The softer pectin polymers exhibit stronger adhesion than stiffer cellulose chains. Adhesion decreases with increasing polymer stiffness but plateaus beyond a threshold. …”