Crosslinking decreases the alignment of fibers associated with individual cells migrating out of spheroids. by Michael Pamonag (12295175)

Competitive binding experiment. by Deepu Dowarha (5673440)

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Summary plot for the effect of important food sources of fructose-containing sugars on diastolic blood pressure (DBP). by Qi Liu (33068)

Summary plot for the effect of important food sources of fructose-containing sugars on systolic blood pressure (SBP). by Qi Liu (33068)

Flowchart of patients. by Seydou Goro (17847203)

New Horizons in Micro/Nanoplastic-Induced Oxidative Stress: Overlooked Free Radical Contributions and Microbial Metabolic Dysregulations in Anaerobic Digestion by Xingxing Zhang (173950)

“…The formation of ^•OH enhanced ROS production by 86.2–100.9%, resulting in decreased cellular viability and methane production (by 37.5–50.5%) at 100 mg/g TS PP-MPs/NPs. …”

PRISMA flow diagram. by Apoorva Anand (17921197)

“…Highest sensitivities were reported for: a) symptomatic individuals (73.91%, 95%CI: 68.41–78.75%; n = 9), b) mid-turbinate nasal samples (77.79%, 95%CI: 56.03–90.59%; n = 14), c) supervised strategy (86.67%, 95%CI: 59.64–96.62%; n = 13), and d) use of digital interventions (70.15%, 95%CI: 50.18–84.63%; n = 14). …”

Meta-analyses of COVIDST diagnostic accuracy. by Apoorva Anand (17921197)

“…Highest sensitivities were reported for: a) symptomatic individuals (73.91%, 95%CI: 68.41–78.75%; n = 9), b) mid-turbinate nasal samples (77.79%, 95%CI: 56.03–90.59%; n = 14), c) supervised strategy (86.67%, 95%CI: 59.64–96.62%; n = 13), and d) use of digital interventions (70.15%, 95%CI: 50.18–84.63%; n = 14). …”

The effect of MSC blocker GsMTx-4 on photoresponses from <i>Xenopus</i> rods. by Ulisse Bocchero (9128127)

Cold-Burst Method for Nanoparticle Formation with Natural Triglyceride Oils by Diana Cholakova (2897222)

“…From the results of dedicated model experiments, we conclude that intensive nanofragmentation is observed when the following requirements are met: (1) The three-phase contact angle at the solid lipid–water–air interface is below ca. 30 degrees. (2) The equilibrium surface tension of the surfactant solution is below ca. 30 mN/m, and the dynamic surface tension decreases rapidly. (3) The surfactant solution contains nonspherical surfactant micelles, e.g., ellipsoidal micelles or bigger supramolecular aggregates. (4) The three-phase contact angle measured at the contact line (frozen oil–surfactant solution–melted oil) is also relatively low. …”

Cold-Burst Method for Nanoparticle Formation with Natural Triglyceride Oils by Diana Cholakova (2897222)

“…From the results of dedicated model experiments, we conclude that intensive nanofragmentation is observed when the following requirements are met: (1) The three-phase contact angle at the solid lipid–water–air interface is below ca. 30 degrees. (2) The equilibrium surface tension of the surfactant solution is below ca. 30 mN/m, and the dynamic surface tension decreases rapidly. (3) The surfactant solution contains nonspherical surfactant micelles, e.g., ellipsoidal micelles or bigger supramolecular aggregates. (4) The three-phase contact angle measured at the contact line (frozen oil–surfactant solution–melted oil) is also relatively low. …”

Cold-Burst Method for Nanoparticle Formation with Natural Triglyceride Oils by Diana Cholakova (2897222)

“…From the results of dedicated model experiments, we conclude that intensive nanofragmentation is observed when the following requirements are met: (1) The three-phase contact angle at the solid lipid–water–air interface is below ca. 30 degrees. (2) The equilibrium surface tension of the surfactant solution is below ca. 30 mN/m, and the dynamic surface tension decreases rapidly. (3) The surfactant solution contains nonspherical surfactant micelles, e.g., ellipsoidal micelles or bigger supramolecular aggregates. (4) The three-phase contact angle measured at the contact line (frozen oil–surfactant solution–melted oil) is also relatively low. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…Using a classical RexPoN force-field, we found that the ions in 1000 H₂O’s spend almost 50% of the time on the surface and 0.5 nm beneath it with a slight preference for OH^– ion to reside longer on the surface. …”