Table_2_A novel anxiety-associated SNP identified in LYNX2 (LYPD1) is associated with decreased protein binding to nicotinic acetylcholine receptors.xlsx by Kristin R. Anderson (5478734)

Image_1_A novel anxiety-associated SNP identified in LYNX2 (LYPD1) is associated with decreased protein binding to nicotinic acetylcholine receptors.jpg by Kristin R. Anderson (5478734)

Table_1_A novel anxiety-associated SNP identified in LYNX2 (LYPD1) is associated with decreased protein binding to nicotinic acetylcholine receptors.pdf by Kristin R. Anderson (5478734)

Actin-Targeted Magnetic Nanomotors Mechanically Modulate the Tumor Mechanical Microenvironment for Cancer Treatment by Xing Fan (88299)

“…ABP-MNs, with an ultrasmall diameter of 23 nm, intracellularly target the actin cytoskeleton and induce depolymerization via magneto-mechanical force under MF. Cancer-associated fibroblasts (CAFs) and tumor cells, which internalize ∼69.3% of ABP-MNs, are significantly tuned under MF with signs of a 7-fold decrease in tumor matrix stiffness, increased immune cell infiltration, and 95.8% tumor growth inhibition. …”

Demographics of the enrolled patients. by Yuka Kasai (21354922)

“…Although the aid was designed to require minimal grip force, we measured the force needed to dispense a single drop for five commonly used clinical eye drops.…”

Overhead view of the eye drop aid. by Yuka Kasai (21354922)

“…Although the aid was designed to require minimal grip force, we measured the force needed to dispense a single drop for five commonly used clinical eye drops.…”

The applied forces and moments. by Petr Boháč (20685499)

The applied forces and moments for the muscles. by Petr Boháč (20685499)

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

“…However, the short-distance and low-speed transportation of liquid caused by an insufficient driving force limit its practical application. 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)

“…However, the short-distance and low-speed transportation of liquid caused by an insufficient driving force limit its practical application. 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)

“…However, the short-distance and low-speed transportation of liquid caused by an insufficient driving force limit its practical application. 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)

“…However, the short-distance and low-speed transportation of liquid caused by an insufficient driving force limit its practical application. 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)

“…However, the short-distance and low-speed transportation of liquid caused by an insufficient driving force limit its practical application. 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)

“…However, the short-distance and low-speed transportation of liquid caused by an insufficient driving force limit its practical application. 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. …”

S1 File - by Michael Gulledge (20577135)

“…Withdrawal was associated with significant alterations in the slope of the aperiodic 1/f component of the EEG power spectrum, an established biomarker of arousal level. …”

Enhanced Cell Proliferation and Maturation Using Carboxylated Bacterial Nanocellulose Scaffolds for 3D Cell Culture by Elizabeth Mavil-Guerrero (20833989)

“…The surface properties and fibrillar structure of BNC–COOH facilitated the formation of hydrogels with significantly enhanced water uptake (1.4-fold) and adhesion force (2.3-fold) compared to BNC. …”

Enhanced Cell Proliferation and Maturation Using Carboxylated Bacterial Nanocellulose Scaffolds for 3D Cell Culture by Elizabeth Mavil-Guerrero (20833989)

“…The surface properties and fibrillar structure of BNC–COOH facilitated the formation of hydrogels with significantly enhanced water uptake (1.4-fold) and adhesion force (2.3-fold) compared to BNC. …”

Enhanced Cell Proliferation and Maturation Using Carboxylated Bacterial Nanocellulose Scaffolds for 3D Cell Culture by Elizabeth Mavil-Guerrero (20833989)

“…The surface properties and fibrillar structure of BNC–COOH facilitated the formation of hydrogels with significantly enhanced water uptake (1.4-fold) and adhesion force (2.3-fold) compared to BNC. …”

Threading Behavior and Dynamics of Ring-Linear Polymer Blends under Poiseuille Flow by Deyin Wang (6028850)

“…However, as rings are semiflexible (<i>K</i>_br > 0), the threading probability significantly decreases and then significantly increases as the flow field strength increases. …”

Relating the biophysical forces that govern bacterial adhesion to experimental data. by Mikkel Anbo (15287803)