Frequency-Dependent Effects of Pulsatile Flow on Particle Inertial Focusing and Separation in Sinusoidal Microchannels by Amith Mudugamuwa (20841943)

“…At 5 Hz, the purity decreased notably for 15 μm particles (from 94% to 71%) and slightly for 10 μm particles (from 99% to 94%), while at 10 Hz, purities remained close to the steady flow values. …”

Frequency-Dependent Effects of Pulsatile Flow on Particle Inertial Focusing and Separation in Sinusoidal Microchannels by Amith Mudugamuwa (20841943)

“…At 5 Hz, the purity decreased notably for 15 μm particles (from 94% to 71%) and slightly for 10 μm particles (from 99% to 94%), while at 10 Hz, purities remained close to the steady flow values. …”

Final dataset. by Keiko Ochiai (21453423)

“…The results showed that CM exhibited significantly higher mAge acceleration and spent significantly less time gazing at the eye region during facial expression presentations. While a significant association between these attributes was observed, a comprehensive path analysis revealed that each attribute independently correlated with higher SDQ scores, suggesting that child maltreatment leads to these difficulties through accelerated aging and decreased eye contact. …”

Frequency-Dependent Effects of Pulsatile Flow on Particle Inertial Focusing and Separation in Sinusoidal Microchannels by Amith Mudugamuwa (20841943)

“…At 5 Hz, the purity decreased notably for 15 μm particles (from 94% to 71%) and slightly for 10 μm particles (from 99% to 94%), while at 10 Hz, purities remained close to the steady flow values. …”

Frequency-Dependent Effects of Pulsatile Flow on Particle Inertial Focusing and Separation in Sinusoidal Microchannels by Amith Mudugamuwa (20841943)

“…At 5 Hz, the purity decreased notably for 15 μm particles (from 94% to 71%) and slightly for 10 μm particles (from 99% to 94%), while at 10 Hz, purities remained close to the steady flow values. …”

Demographic Characteristics of Participants. by Keiko Ochiai (21453423)

“…The results showed that CM exhibited significantly higher mAge acceleration and spent significantly less time gazing at the eye region during facial expression presentations. While a significant association between these attributes was observed, a comprehensive path analysis revealed that each attribute independently correlated with higher SDQ scores, suggesting that child maltreatment leads to these difficulties through accelerated aging and decreased eye contact. …”

Frequency-Dependent Effects of Pulsatile Flow on Particle Inertial Focusing and Separation in Sinusoidal Microchannels by Amith Mudugamuwa (20841943)

“…At 5 Hz, the purity decreased notably for 15 μm particles (from 94% to 71%) and slightly for 10 μm particles (from 99% to 94%), while at 10 Hz, purities remained close to the steady flow values. …”

Frequency-Dependent Effects of Pulsatile Flow on Particle Inertial Focusing and Separation in Sinusoidal Microchannels by Amith Mudugamuwa (20841943)

“…At 5 Hz, the purity decreased notably for 15 μm particles (from 94% to 71%) and slightly for 10 μm particles (from 99% to 94%), while at 10 Hz, purities remained close to the steady flow values. …”

Proportions of PTX episodes for males and females by age (N = 149). by Yukiko Namba (6829589)

S1 Data - by David E. B. Fleming (14835322)

Evolution of the number of confined groups in schools in Catalonia compared with the estimations based on the incidence. by Sergio Alonso (270169)

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”

Combining Ultrasound and Capillary-Embedded T‑Junction Microfluidic Devices to Scale Up the Production of Narrow-Sized Microbubbles through Acoustic Fragmentation by Aaqib H. Khan (9407159)

“…When stored in a closed environment, the microbubbles were observed to be stable for up to 30 days, with the concentration of the microbubble suspension decreasing from ∼2.81 × 10⁹/mL to ∼2.3 × 10⁶/mL and the size changing from 1.73 ± 0.2 to 1.45 ± 0.3 μm at the end of 30 days. …”