Large-scale stress-controlled shearing apparatus. حسب Fei He (145896)

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Dramatic Lockdown Fossil Fuel CO₂ Decrease Detected by Citizen Science-Supported Atmospheric Radiocarbon Observations حسب Jocelyn C. Turnbull (6083705)

<b>Nest mass in forest tits </b><b><i>Paridae</i></b><b> </b><b>increases with elevation and decreasing body mass, promoting reproductive success</b> حسب Clara Wild (19246606)

Fig 3 - حسب Claire Gauquelin Des Pallieres (15333248)

Evaluation of gallbladder fossa after liver removal. حسب Diana C. J. Rhodes (4268470)

Plots gallbladder fossae volumes versus different dimensions of the fossa mold for livers with (blue) and without (red) gallbladders (males (squares), females (circles)), showing P... حسب Diana C. J. Rhodes (4268470)

Large RATs correspond to functional centromeres. حسب Emily E. Wear (9519674)

"…Two examples of simple centromeres, CEN 1 (<b>A</b>) and CEN 6 (<b>B</b>), and two examples of complex centromeres, CEN 9 (<b>C</b>) and CEN 10 (<b>D</b>) are presented. The black arrowheads in panels <b>C</b> and <b>D</b> denote example regions with a peak of early replication signal within or adjacent to the centromere that also shows an increase in mid replication signal in the endocycle (for other examples, see <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1008623#pgen.1008623.s013" target="_blank">S12 Fig</a>). …"

The 3CP circle model captures spatial scale increase in large-eddy simulations (LES). حسب Silas Boye Nissen (6815351)

Estimation of the mutation-rate increase is accurate and precise when the mutation-supply ratio is sufficiently large. حسب Lucy Lansch-Justen (18625920)

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks حسب 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. …"

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks حسب 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. …"

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks حسب 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. …"

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks حسب 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. …"

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks حسب 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. …"

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks حسب 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. …"

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks حسب 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. …"

Large <i>Bgl-</i>FaNaC neurons labeled with HCR <i>in situ</i> hybridization. حسب Laura C. Vicente-Rodríguez (16437803)

WT1 and LANA expression correlate with decreased T cell infiltrates. حسب Ayana E. Morales (17756335)

Loose Bulk Density and Length-to-Diameter Ratio of Flexible Needle-like Crystals Crown via Antisolvent Crystallization حسب Chunlei Qin (19193397)

Loose Bulk Density and Length-to-Diameter Ratio of Flexible Needle-like Crystals Crown via Antisolvent Crystallization حسب Chunlei Qin (19193397)