The Response of the Alpine Dwarf Shrub <i>Salix herbacea</i> to Altered Snowmelt Timing: Lessons from a Multi-Site Transplant Experiment by Janosch Sedlacek (301844)

“…However, in the long term, reduction in leaf size and flowering, a longer phenological development time and increased exposure to damage may decrease overall performance of <i>S</i>. <i>herbacea</i> under earlier snowmelt.…”

Dimer Formation Enhances Structural Differences between Amyloid β-Protein (1–40) and (1–42): An Explicit-Solvent Molecular Dynamics Study by Bogdan Barz (173139)

“…A dimers were characterized by an increased flexibility in the N-terminal region D1-R5 and a larger solvent exposure of charged amino acids relative to A dimers. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Dropwise Condensate Comb for Enhanced Heat Transfer by Yu Tang (343157)

“…Dropwise condensation on superhydrophobic surfaces could potentially enhance heat transfer by droplet spontaneous departure <i>via</i> coalescence-induced jumping. However, an uncontrolled droplet size could lead to a significant reduction of heat transfer by condensation, due to large droplets that resulted in a flooding phenomenon on the surface. …”

Potent Zinc(II)-Based Immunogenic Cell Death Inducer Triggered by ROS-Mediated ERS and Mitochondrial Ca²⁺ Overload by Lan-Shan Liao (16697492)

“…Collectively, our findings provided a new design strategy for a zinc-based ICD inducer via ROS-induced ERS and mitochondrial Ca²⁺ overload.…”

Oddball paradigm. by Kwangjun Lee (22226994)

Force balance in the actin network changes as the focal adhesion strength increases. by David M. Rutkowski (11577038)

The effect of 4 day’s starvation on visible protein aggregates. by Ulfat I. Baig (233369)

“…This suggests that all aggregate classes are not degraded proportionately. Many of the larger ones could be relatively resistant to degradation while the smaller ones degrade fast, thereby increasing the mean excluding aggregate free cells after degradation. …”

Ultraconformable Capacitive Strain Sensor Utilizing Network Structure of Single-Walled Carbon Nanotubes for Wireless Body Sensing by Kei Okada (3907831)

“…We fabricated conductive polymeric ultrathin films (“nanosheets”) comprising polystyrene-<i>block</i>-polybutadiene (SB) elastomers and single-walled carbon nanotubes (SWCNTs) (i.e., SWCNT-SB nanosheets) via gravure coating; the SWCNT-SB-coated nanosheets were used as the flexible electrode in a capacitive strain sensor. …”

Ultraconformable Capacitive Strain Sensor Utilizing Network Structure of Single-Walled Carbon Nanotubes for Wireless Body Sensing by Kei Okada (3907831)

“…We fabricated conductive polymeric ultrathin films (“nanosheets”) comprising polystyrene-<i>block</i>-polybutadiene (SB) elastomers and single-walled carbon nanotubes (SWCNTs) (i.e., SWCNT-SB nanosheets) via gravure coating; the SWCNT-SB-coated nanosheets were used as the flexible electrode in a capacitive strain sensor. …”

Ultraconformable Capacitive Strain Sensor Utilizing Network Structure of Single-Walled Carbon Nanotubes for Wireless Body Sensing by Kei Okada (3907831)

“…We fabricated conductive polymeric ultrathin films (“nanosheets”) comprising polystyrene-<i>block</i>-polybutadiene (SB) elastomers and single-walled carbon nanotubes (SWCNTs) (i.e., SWCNT-SB nanosheets) via gravure coating; the SWCNT-SB-coated nanosheets were used as the flexible electrode in a capacitive strain sensor. …”

Blockade of CXCR3 reverses tumour growth restriction by IAV infection. by Philine Steinbach (17847521)

Predictive coding of sensory inputs and emergent oscillations. by Kwangjun Lee (22226994)

The <i>in silico</i> immune simulation of SS-MEVC vaccine peptide predicted by C-ImmSim server. by Sara Aiman (9090834)