TEMPO-Oxidized Microcrystalline Cellulose for Rapid Adsorption of Ammonium by Jia Hui Ong (12085606)

“…Despite a slight decrease in adsorption performance, the material can be regenerated and applied in a real water sample. …”

Effects of <i>trans ε</i>-viniferin at 10 mg/kg on amyloid deposits and neuroinflammation in cortex. by Martial Caillaud (6383672)

Effects of <i>trans ε</i>-viniferin at 10 mg/kg on amyloid deposits and neuroinflammation in hippocampus. by Martial Caillaud (6383672)

Monocyte subpopulation reflects coordinated changes with both the immunotherapy progression and MCC severity. by Quyuan Tao (12261798)

Effects of the adipokines resistin, visfatin, leptin, and adiponectin on androstenedione production <i>in</i><i>vitro</i> in the presence of LH: compared to control cells, adiponec... by Fabio V. Comim (486376)

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). …”

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). …”

Fig 1 - by Cara J. Broshkevitch (18605550)

Effects of 254- and 222-UVC exposure on <i>C</i>. <i>elegans</i> hatching rate. by Kaoru Okamoto Yoshiyama (14526661)

Illustration of the control setup: continuous circulation of canine cell-free hemoglobin (cfHb) solution without the Cytosorb^® adsorber was performed. by Kathrin Spiegel (21799784)

Fig 6 - by Alexandra Gaspar-Pintiliescu (17973043)

MarBTN-specific eDNA detection in each clam that was followed for MarBTN in hemolymph and eDNA. by Rachael M. Giersch (22331947)

“…The animal with clear regression is FFM-21A1. In a second clam (FFM-22H11), the cancer decreased but it did not survive more than 8 weeks after this drop, so under our conservative criteria, we consider it to be progression. …”

Simulation receiver-operator characteristic (ROC) curves. by James Ziai (4752324)

“…Over the set of cut-offs (1%, 2%, 5%, 10%), the analysis treated the mean CD8 staining as the true intensity against which the results of the subsamples of biopsy fragments were evaluated. …”