Decreased BP in female mice with cardiac-specific inactivation of <i>Prdm16</i>. by Ji-One Kang (844616)

Loss of Prox1a decreases PR production at 120 hours post-ablation. by Kellie Veen (17343374)

Data_Sheet_1_Difference and Cluster Analysis on the Carbon Dioxide Emissions in China During COVID-19 Lockdown via a Complex Network Model.ZIP by Jun Hu (5721)

Seasonal timing, elevation, and the growing season temperature anomalies interact as determinants of changes in femur length from historic means (accounting for species, elevation,... by César R. Nufio (11646271)

Size Control in the Colloidal Synthesis of Plasmonic Magnesium Nanoparticles by Elizabeth R. Hopper (11884126)

“…Significantly larger particles of over a micrometer were produced by reducing the reaction temperature and, thus, the nucleation rate. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Data_Sheet_1_The Risky Decrease of Fishing Reference Points Under Climate Change.docx by Morgane Travers-Trolet (548023)

“…Here we explored the variability of MSY reference points under climate change by using a multi-species model applied to the Eastern English Channel, a highly exploited semi-continental sea. …”

ONSD modifications induced by arterial paCO₂ changes. by Marco Carbonara (11483575)

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Enrollment flow-chart. by Marco Carbonara (11483575)

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Table 1 - by Marco Carbonara (11483575)

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Optic Nerve Sheath Diameter (ONSD) in mm, measured by ultrasound. by Marco Carbonara (11483575)

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ONSD at T14 and six months after ICU discharge. by Marco Carbonara (11483575)

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Bland-Altman plot indicating the agreement between the optic nerve sheath diameter measured with CT scan and US. by Marco Carbonara (11483575)

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Disruption of putative host factor LGMN decreases SARS-CoV-2 viral entry. by Ravi K. Dinesh (21736629)