TITAN decreaser diatom heatmap. by Brent J. Bellinger (21156150)

Loss of ECRG4 expression decreases neutrophil mobilization from bone marrow reserves. by Katie D. Pool (20141584)

TITAN decreaser macroinvertebrate heatmap Heatmap of sensitive (i.e., <i>z-</i>) macroinvertebrate taxa (y-axis) to at least one of the five stressors, in decreasing order of numbe... by Brent J. Bellinger (21156150)

Anisotropic Wetting and Diffusion Behavior of Water Droplets on Biphenylene Compared to Graphene by Xiaoqiong Ren (20362140)

“…As the concentration of vacancies increases, the contact angle increases both along the zigzag direction and the armchair direction, while the anisotropy decreases. In planar defective biphenylene heterojunctions, water droplets spontaneously move from the defective area to the pristine area, where the zigzag direction exhibits a larger energy gradient compared to the armchair direction, leading to a faster movement of water droplets in the zigzag direction. …”

Anisotropic Wetting and Diffusion Behavior of Water Droplets on Biphenylene Compared to Graphene by Xiaoqiong Ren (20362140)

“…As the concentration of vacancies increases, the contact angle increases both along the zigzag direction and the armchair direction, while the anisotropy decreases. In planar defective biphenylene heterojunctions, water droplets spontaneously move from the defective area to the pristine area, where the zigzag direction exhibits a larger energy gradient compared to the armchair direction, leading to a faster movement of water droplets in the zigzag direction. …”

Anisotropic Wetting and Diffusion Behavior of Water Droplets on Biphenylene Compared to Graphene by Xiaoqiong Ren (20362140)

“…As the concentration of vacancies increases, the contact angle increases both along the zigzag direction and the armchair direction, while the anisotropy decreases. In planar defective biphenylene heterojunctions, water droplets spontaneously move from the defective area to the pristine area, where the zigzag direction exhibits a larger energy gradient compared to the armchair direction, leading to a faster movement of water droplets in the zigzag direction. …”

Anisotropic Wetting and Diffusion Behavior of Water Droplets on Biphenylene Compared to Graphene by Xiaoqiong Ren (20362140)

“…As the concentration of vacancies increases, the contact angle increases both along the zigzag direction and the armchair direction, while the anisotropy decreases. In planar defective biphenylene heterojunctions, water droplets spontaneously move from the defective area to the pristine area, where the zigzag direction exhibits a larger energy gradient compared to the armchair direction, leading to a faster movement of water droplets in the zigzag direction. …”

Increasing fractions of mobilized and static taxa in the microbial streamwater community, with a corresponding decrease in the fraction of diluted microbial taxa, detail the shift... by Dawn R. URycki (9659702)

TITAN increaser macroinvertebrate heatmap Heatmap of tolerant (i.e., <i>z</i>+) macroinvertebrate taxa (y-axis) to at least one of the five stressors, in decreasing order of number... by Brent J. Bellinger (21156150)

Change in rectal temperature following pre-medication, induction and inhalant anesthesia. by Jacob P. Rastas (20642173)

“…Overall, when all time points and warming treatments were combined, ACE had significantly larger decreases in body temperature versus DEX, mainly attributable to significant differences at >T30 minutes (both P < 0.05). …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”