Dataset for: Effect of preceding stimulation on sound localization and its representation in the auditory midbrain by Sandra Tolnai (3359648)

Circuity analyses of HSR network and high-speed train paths in China by Xinlei Hu (566377)

Stabilization and Anomalous Hydration of Collagen Fibril under Heating by Sasun G. Gevorkian (482452)

Emotional speech prosody: How readers of different educational levels process pragmatic aspects of reading aloud by Alcione de Jesus Santos (14028232)

Table 1_High prevalence of the hotspot complement factor I p.Ile357Met pathogenic variant in Tunisian atypical hemolytic uremic syndrome patients: report of three new cases and rev... by Asma Tajouri (22052051)

“…</p>Methods<p>In this context, we conducted the current study which included 8 adults and three children with suspected aHUS and decreased factor I levels, as well as one relative. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Light-driven Locomotion of Underwater Bubbles on Ultrarobust Paraffin-impregnated Laser-ablated Fe₃O₄‑doped Slippery Surfaces by Zhouchen Huang (6672761)

“…The underlying principle is that when the NIR was applied, UGB would be actuated to slide along the NIR trace because the irradiated domain melts for a slippery surface within 1.0 s. Once the NIR is removed, the liquefied paraffin would be reconfigured to solid phase for pinning a moving UGB within 0.5 s. …”

Cx36 influences cell fate. by Elizabeth M. Hartfield (227991)

Supplementary Material for: Trophoblast Glycoprotein: Possible Candidate Mediating Podocyte Injuries in Glomerulonephritis by Murakami T. (3351770)

Administration of BAY 41-2272 prevents bladder dysfunction in nitric-oxide deficient rats by Carlos Arturo Levi D'Ancona (8651598)

“…The NO synthase blocker L-NAME (20 mg/rat/day) was given in drinking water concomitantly or not with BAY 41-2272 (10 mg/kg/day, given by gavage). Results: Chronic L-NAME treatment markedly increased the mean arterial blood pressure, and co-treatment with BAY 41-2272 nearly reversed L-NAME-induced rise on mean arterial blood pressure. …”

TUI data. by Sanjeev Kumar Chandrayan (36248)

Reaction times and CPE durations. by Mariana Gil (377146)

Analysis of spiking variability. by Sergio Verduzco-Flores (371239)

The Role of Hypoxia Inducible Factor-1 Alpha in Bypassing Oncogene-Induced Senescence by Mehtap Kilic Eren (591048)