Comparative analysis of SMI in two groups. by Ekaterina Khristenko (17847064)

“…Additionally, we observed a decrease in muscle mass (hidden sarcopenia) in 79.7% in patients with a normal BMI. …”

Boxplots showing levels of explanatory variables determined to significantly explain survival to 28 d for fish that survived 7 d and had recorded metrics on surgical wounds. by April S. Cameron (8622711)

Comparison of isolectin B4 staining with PECAM1 and PLVAP immunostaining. by Yoshito Sugita (14803627)

Behavior effects after heat stressor and LABP exposure. by Kassia Martins Fernandes Pereira (12219197)

Behavior effects after sleep deprivation and LABP exposure. by Kassia Martins Fernandes Pereira (12219197)

“…The larvae were kept on light and LABP exposure during the sleep cycle. <b>B.</b> 100 mg/L LABP significantly increased the choice index when compared to control on light (p = 0.0438), while the normal control showed a significantly higher choice index when compared to control on light (p = 0.0009). …”

Quantitative real-time RT-PCR analysis of vascular markers. by Yoshito Sugita (14803627)

S1 Fig - by April S. Cameron (8622711)

OSI-930 causes pituitary apoplexy around Rathke’s cleft. by Yoshito Sugita (14803627)

Few blood vessels of the intermediate lobes express VE-cadherin. by Yoshito Sugita (14803627)

Parameters of the final model. by Hiie Soeorg (11448028)

“…According to the final model, the Delta variant had slower growth and a lower maximum cumulative incidence. The number of workplace closures in the previous week and school holidays in the same week decreased, but the number of travel-related cases in the same week increased the incidence growth. …”

Pericytes are not detected around Rathke’s cleft. by Yoshito Sugita (14803627)

Characterization of the blue-blocking filter. by Javier Vicente-Tejedor (4966858)

Behavior effects after LABP exposure during the sleep cycle. by Kassia Martins Fernandes Pereira (12219197)

Behavior effects after LABP acute exposure. by Kassia Martins Fernandes Pereira (12219197)

“…<p><b>A.</b> The schematic of the behavioral testing after LABP exposure (20, 25, or 60 min) in different concentrations (1, 3, 100, 300, or 500 mg/L). …”

Nonparametric Kaplan‑Meier estimated mortality for replicates 1–8 pooled across treatments. by April S. Cameron (8622711)

Understanding the Effect of Platinum Particle Size on Ethane Dehydrogenation and Hydrogenolysis: Particle-Based Microkinetic Modeling at Finite Conversion by Mubarak Bello (16715843)

“…The effect of platinum particle size on the kinetics and mechanism of ethane dehydrogenation (EDH) and hydrogenolysis (EH) is elucidated using first-principles and multiscale modeling. A particle-based microkinetic modeling (PB-MKM) approach is used to couple the MKMs for individual facets, i.e., Pt(111), Pt(100), and Pt(211), into a variable-size Pt nanoparticle catalyst model. …”

Understanding the Effect of Platinum Particle Size on Ethane Dehydrogenation and Hydrogenolysis: Particle-Based Microkinetic Modeling at Finite Conversion by Mubarak Bello (16715843)

“…The effect of platinum particle size on the kinetics and mechanism of ethane dehydrogenation (EDH) and hydrogenolysis (EH) is elucidated using first-principles and multiscale modeling. A particle-based microkinetic modeling (PB-MKM) approach is used to couple the MKMs for individual facets, i.e., Pt(111), Pt(100), and Pt(211), into a variable-size Pt nanoparticle catalyst model. …”

Understanding the Effect of Platinum Particle Size on Ethane Dehydrogenation and Hydrogenolysis: Particle-Based Microkinetic Modeling at Finite Conversion by Mubarak Bello (16715843)

“…The effect of platinum particle size on the kinetics and mechanism of ethane dehydrogenation (EDH) and hydrogenolysis (EH) is elucidated using first-principles and multiscale modeling. A particle-based microkinetic modeling (PB-MKM) approach is used to couple the MKMs for individual facets, i.e., Pt(111), Pt(100), and Pt(211), into a variable-size Pt nanoparticle catalyst model. …”

Understanding the Effect of Platinum Particle Size on Ethane Dehydrogenation and Hydrogenolysis: Particle-Based Microkinetic Modeling at Finite Conversion by Mubarak Bello (16715843)

“…The effect of platinum particle size on the kinetics and mechanism of ethane dehydrogenation (EDH) and hydrogenolysis (EH) is elucidated using first-principles and multiscale modeling. A particle-based microkinetic modeling (PB-MKM) approach is used to couple the MKMs for individual facets, i.e., Pt(111), Pt(100), and Pt(211), into a variable-size Pt nanoparticle catalyst model. …”

Nonparametric Kaplan-Meier estimated mortality for treatments pooled across replicates 1–8. by April S. Cameron (8622711)