Structural Characterization of Ceria-Supported Pt Nanoparticles by Flame-Assisted Spray Pyrolysis Using a Burner Diffusion Flame by Tsuyoshi Nagasawa (8680269)

“…The synthesized particles mainly consist of 100 nm-scale CeO₂ with 10 nm-scale Pt and aggregation of small CeO₂ less than 10 nm with highly dispersed Pt at a maximum flame temperature <i>T</i>_max ≈ 1800 K. …”

Structural Characterization of Ceria-Supported Pt Nanoparticles by Flame-Assisted Spray Pyrolysis Using a Burner Diffusion Flame by Tsuyoshi Nagasawa (8680269)

“…The synthesized particles mainly consist of 100 nm-scale CeO₂ with 10 nm-scale Pt and aggregation of small CeO₂ less than 10 nm with highly dispersed Pt at a maximum flame temperature <i>T</i>_max ≈ 1800 K. …”

Structural Characterization of Ceria-Supported Pt Nanoparticles by Flame-Assisted Spray Pyrolysis Using a Burner Diffusion Flame by Tsuyoshi Nagasawa (8680269)

“…The synthesized particles mainly consist of 100 nm-scale CeO₂ with 10 nm-scale Pt and aggregation of small CeO₂ less than 10 nm with highly dispersed Pt at a maximum flame temperature <i>T</i>_max ≈ 1800 K. …”

Structural Characterization of Ceria-Supported Pt Nanoparticles by Flame-Assisted Spray Pyrolysis Using a Burner Diffusion Flame by Tsuyoshi Nagasawa (8680269)

“…The synthesized particles mainly consist of 100 nm-scale CeO₂ with 10 nm-scale Pt and aggregation of small CeO₂ less than 10 nm with highly dispersed Pt at a maximum flame temperature <i>T</i>_max ≈ 1800 K. …”

Data Sheet 1_Semaglutide attenuates myocardial ischemia-reperfusion injury by inhibiting ferroptosis of cardiomyocytes via activation of PKC-S100A9 axis.pdf by Yan Liu (25061)

“…In vitro, experiments showed that semaglutide decreased the expression of S100A9 by activating the Protein Kinase C(PKC) pathway, thus inhibiting ferroptosis in cardiomyocytes.…”

Data Sheet 2_Semaglutide attenuates myocardial ischemia-reperfusion injury by inhibiting ferroptosis of cardiomyocytes via activation of PKC-S100A9 axis.docx by Yan Liu (25061)

“…In vitro, experiments showed that semaglutide decreased the expression of S100A9 by activating the Protein Kinase C(PKC) pathway, thus inhibiting ferroptosis in cardiomyocytes.…”

Table 1_Semaglutide attenuates myocardial ischemia-reperfusion injury by inhibiting ferroptosis of cardiomyocytes via activation of PKC-S100A9 axis.docx by Yan Liu (25061)

“…In vitro, experiments showed that semaglutide decreased the expression of S100A9 by activating the Protein Kinase C(PKC) pathway, thus inhibiting ferroptosis in cardiomyocytes.…”

Decreased myofibroblasts in the peritumoral region and high expression of MMP-7 in Pan02 S.C. tumor of <i>S100a4-Cre; Ext1</i>^<i>f/f</i> mice. by Ayumi Niwa (6256790)

“…<p>(A) Immunostaining of α-smooth muscle actin (αSMA)-positive spindle cells, i.e., myofibroblasts, in the peritumoral region of Pan02 S.C. pancreatic tumors in <i>S100a4-Cre; Ext1</i>^<i>f/f</i> and control mice (left). …”

Longer polyQ sequences increase the tendency of AR-NTD to form gels. by Carlos M. Roggero (11909585)

The oxygen level (kPa) for 50 and 100% habitat loss for each species and season under a doubling of atmospheric CO₂. by Emily Slesinger (6837740)

The first regression of log of confirmed cases vs consecutive days for 4 of the total of 50 countries is shown. by Adam Kaplin (10156481)

Sequence of <i>DpAP2</i> promoter. by Lingru Ruan (18995544)

“…<i>parva</i> cells treated with different concentrations of MeJA (10, 20, 50, 100 μM) and GA3 (10, 20, 50, 100 μM). The high concentrations of MeJA (10–100 μM) inhibited the accumulation of carotenoid, and the relative expression of <i>DpAP2</i>, <i>PSY</i>, <i>PDS</i> and <i>GGPS</i> decreased significantly. …”

Posterior mean year-stage detection probabilities (red circles) and 95% Bayesian Credible Intervals (BCI; vertical black lines) of the (A) ≤100 m radius, and (B) infinite radius da... by Taza D. Schaming (8911517)

Predicted <i>cis</i>-acting elements in <i>DpAP2</i> promoter. by Lingru Ruan (18995544)

“…<i>parva</i> cells treated with different concentrations of MeJA (10, 20, 50, 100 μM) and GA3 (10, 20, 50, 100 μM). The high concentrations of MeJA (10–100 μM) inhibited the accumulation of carotenoid, and the relative expression of <i>DpAP2</i>, <i>PSY</i>, <i>PDS</i> and <i>GGPS</i> decreased significantly. …”

Image_4_v1_Systemic Immune Modulation Alters Local Bone Regeneration in a Delayed Treatment Composite Model of Non-Union Extremity Trauma.jpeg by Casey E. Vantucci (10528263)

“…This overall increase correlated with a decrease in bone volume (P = 0.057) at 6 weeks post-treatment and a significant decrease in mechanical strength at 12 weeks post-treatment compared to untreated rats. …”

Image_5_v1_Systemic Immune Modulation Alters Local Bone Regeneration in a Delayed Treatment Composite Model of Non-Union Extremity Trauma.jpeg by Casey E. Vantucci (10528263)

“…This overall increase correlated with a decrease in bone volume (P = 0.057) at 6 weeks post-treatment and a significant decrease in mechanical strength at 12 weeks post-treatment compared to untreated rats. …”

Table_1_v1_Systemic Immune Modulation Alters Local Bone Regeneration in a Delayed Treatment Composite Model of Non-Union Extremity Trauma.docx by Casey E. Vantucci (10528263)

“…This overall increase correlated with a decrease in bone volume (P = 0.057) at 6 weeks post-treatment and a significant decrease in mechanical strength at 12 weeks post-treatment compared to untreated rats. …”

Image_2_v1_Systemic Immune Modulation Alters Local Bone Regeneration in a Delayed Treatment Composite Model of Non-Union Extremity Trauma.jpeg by Casey E. Vantucci (10528263)

“…This overall increase correlated with a decrease in bone volume (P = 0.057) at 6 weeks post-treatment and a significant decrease in mechanical strength at 12 weeks post-treatment compared to untreated rats. …”

Image_3_v1_Systemic Immune Modulation Alters Local Bone Regeneration in a Delayed Treatment Composite Model of Non-Union Extremity Trauma.jpeg by Casey E. Vantucci (10528263)

“…This overall increase correlated with a decrease in bone volume (P = 0.057) at 6 weeks post-treatment and a significant decrease in mechanical strength at 12 weeks post-treatment compared to untreated rats. …”

Image_6_v1_Systemic Immune Modulation Alters Local Bone Regeneration in a Delayed Treatment Composite Model of Non-Union Extremity Trauma.jpeg by Casey E. Vantucci (10528263)

“…This overall increase correlated with a decrease in bone volume (P = 0.057) at 6 weeks post-treatment and a significant decrease in mechanical strength at 12 weeks post-treatment compared to untreated rats. …”