The relationship between pre-peak shear stiffness and <i>JRC</i>, normal stress. by Zhezhe Zhang (19704587)

Fig 10 - by Zhezhe Zhang (19704587)

Fig 19 - by Zhezhe Zhang (19704587)

Fig 8 - by Zhezhe Zhang (19704587)

Cosolutes Modify Alkaline Phosphatase Catalysis through Osmotic Stress and Crowding Mechanisms by Oksana A. Yavorska (11507938)

“…Dextran 6 K and sucrose strongly impeded the subsequent conversion of the bound substrate into a free product, which was marked by sharp reductions in <i>V</i>_max, uncompetitive inhibition. …”

Cosolutes Modify Alkaline Phosphatase Catalysis through Osmotic Stress and Crowding Mechanisms by Oksana A. Yavorska (11507938)

“…Dextran 6 K and sucrose strongly impeded the subsequent conversion of the bound substrate into a free product, which was marked by sharp reductions in <i>V</i>_max, uncompetitive inhibition. …”

Fig 20 - by Zhezhe Zhang (19704587)

3D representation of NI cells realized with IMARIS 9.9.1. by Pierre Khalfi (7868252)

Fig 26 - by Zhezhe Zhang (19704587)

Effect of cumulative gas during incubation durations of microencapsulated lemongrass and mangosteen peel (MELM) levels. by Rittikeard Prachumchai (18771149)

FND-4b activated AMPKα and its downstream signaling pathways in a dose-dependent manner in breast cancer. by Jeremy Johnson (535080)

Comparison of brain volume reduction assessed using head computed tomography between admission and follow-up. by Toru Hosokawa (364158)

Association between the degree of brain volume reduction and activities of daily living function. by Toru Hosokawa (364158)

Food purchase and eating behavior during the COVID-19 pandemic: A cross-sectional survey of Russian adults by Ben Hassen, Tarek

“…Indeed, the survey results suggested (i) a change in the modality of acquiring food, consumers reduced the number of shopping trips and buying more on each trip to minimize store visits; (ii) a surge of stockpiling of non-perishable food items; (iii) a shift toward healthier diets; (iv) an increase in culinary capabilities; (v) a decrease of food waste. …”
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Figure 5 from Clinical Validation of a Cell-Free DNA Fragmentome Assay for Augmentation of Lung Cancer Early Detection by Peter J. Mazzone (20018668)

DataSheet_5_A complex regulatory network governs the expression of symbiotic genes in Sinorhizobium fredii HH103.xlsx by Pilar Navarro-Gómez (3144096)

Flowchart of the inclusion and exclusion criteria. by Toru Hosokawa (364158)

Evolution of Carbon Nanofiber-Supported Pt Nanoparticles of Different Particle Sizes: A Molecular Dynamics Study by Hongye Cheng (1416415)

“…Molecular dynamics simulations employing the ReaxFF reactive force field have been carried out to analyze the structural evolution of fishbone-type carbon nanofiber-supported Pt nanoparticles, with particle size ranging from 5.6 to 30.7 Å. Simulated results indicate that upon adsorption the distribution of first-shell Pt–Pt coordination number and radial distribution function change significantly in Pt nanoparticles up to 2 nm in size and that the restructuring degree of the Pt nanoparticles decreases with particle size, which is attributed both to the reduced binding energy per Pt atom bonded to support and to the increased cohesive energy of the Pt nanoparticles. …”

Evolution of Carbon Nanofiber-Supported Pt Nanoparticles of Different Particle Sizes: A Molecular Dynamics Study by Hongye Cheng (1416415)

“…Molecular dynamics simulations employing the ReaxFF reactive force field have been carried out to analyze the structural evolution of fishbone-type carbon nanofiber-supported Pt nanoparticles, with particle size ranging from 5.6 to 30.7 Å. Simulated results indicate that upon adsorption the distribution of first-shell Pt–Pt coordination number and radial distribution function change significantly in Pt nanoparticles up to 2 nm in size and that the restructuring degree of the Pt nanoparticles decreases with particle size, which is attributed both to the reduced binding energy per Pt atom bonded to support and to the increased cohesive energy of the Pt nanoparticles. …”

Halo-PROTAC mediated zDHHC-PAT degradation in Flp-In 293 T-REx cells. by Mingjie Bai (10028513)