Development of a CRISPR/Cas-Based Detection Platform for Tracking Decreased Susceptibility to Cephalosporins in Neisseria gonorrheae by Ziyuan Zhao (2889005)

Subjects:

Single-cell barcoding allows tracking cell lineages with space and time. by Nava Leibovich (12908477)

Shuffling identity decreases behavior trajectory uniqueness. by Catalin Mitelut (5587493)

Masking distance decreases pupillary responses. by Inmaculada Márquez (19681346)

Toxoplasma infection leads to a decrease in the concentration of EVs. by Emily Z. Tabaie (16630841)

NASA TLX results of Task 1 for (a) low-intensity light, (b) out of vision hands and (c) self occlusion error. by Mucahit Gemici (21519313)

Nanodomains and Their Temperature Dependence in a Phosphonium-Based Ionic Liquid: A Single-Molecule Tracking Study by Jemima Opare-Addo (14657955)

“…The elimination of the slow population and the presence of a single diffusing population in [P₆₆₆₁₄][Cl] as the temperature increases and the viscosity decreases is consistent with liquid–liquid phase separation (LLPS) as a mechanism of nanodomain formation. …”

Nanodomains and Their Temperature Dependence in a Phosphonium-Based Ionic Liquid: A Single-Molecule Tracking Study by Jemima Opare-Addo (14657955)

“…The elimination of the slow population and the presence of a single diffusing population in [P₆₆₆₁₄][Cl] as the temperature increases and the viscosity decreases is consistent with liquid–liquid phase separation (LLPS) as a mechanism of nanodomain formation. …”

Nanodomains and Their Temperature Dependence in a Phosphonium-Based Ionic Liquid: A Single-Molecule Tracking Study by Jemima Opare-Addo (14657955)

“…The elimination of the slow population and the presence of a single diffusing population in [P₆₆₆₁₄][Cl] as the temperature increases and the viscosity decreases is consistent with liquid–liquid phase separation (LLPS) as a mechanism of nanodomain formation. …”

Nanodomains and Their Temperature Dependence in a Phosphonium-Based Ionic Liquid: A Single-Molecule Tracking Study by Jemima Opare-Addo (14657955)

“…The elimination of the slow population and the presence of a single diffusing population in [P₆₆₆₁₄][Cl] as the temperature increases and the viscosity decreases is consistent with liquid–liquid phase separation (LLPS) as a mechanism of nanodomain formation. …”

A novel RNN architecture to improve the precision of ship trajectory predictions by Martha Dais Ferreira (18704596)

“…However, this model can be time-consuming and can only represent a single vessel track. To solve these challenges, Recurrent Neural Network (RNN) models have been applied to STP to allow scalability for large data sets and to capture larger regions or anomalous vessels behavior. …”

An increase in MOI decreases neuronal dendrite numbers. by Emily Z. Tabaie (16630841)

Nanoparticle tracking analysis. by Halime Tozak Yıldız (21238185)

The motor torque curves of load increase/decrease (A) the load of 10 N • m (B) the load of 20 N • m. by Taochang Li (20642935)

The motor speed curves of load increase/decrease (A) the load of 10 N • m (B) the load of 20 N • m. by Taochang Li (20642935)

Speckle tracking echocardiography. by Biagio Castaldi (20673392)

Tracking error comparison of obstacle avoidance trajectories in scenarios with obstacles moving at a constant linear speed. by Long Di (9977453)

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”

A Wettability Gradient Synergistic Bionic Wedge-Shaped Track for Ultrafast and Long-Distance Spontaneous Transport of Droplets by Xinghai Zhong (21450285)

“…To address the aforementioned challenges, we developed a bionic wedge-shaped track on the copper (Cu) substrate inspired by the cone-shaped thorn of cactus for liquid spontaneous transport. …”