Interfacial Engineering with a Nanoparticle-Decorated Porous Carbon Structure on β″-Alumina Solid-State Electrolytes for Molten Sodium Batteries by Minyuan M. Li (12616823)

“…Heat treating a simple slurry, composed only of water, acetone, carbon black, and lead acetate, formed a porous carbon network decorated with PbO_<i>x</i> (0 ≤ <i>x</i> ≤ 2) nanoparticles between 10 and 50 nm. …”

Interfacial Engineering with a Nanoparticle-Decorated Porous Carbon Structure on β″-Alumina Solid-State Electrolytes for Molten Sodium Batteries by Minyuan M. Li (12616823)

“…Heat treating a simple slurry, composed only of water, acetone, carbon black, and lead acetate, formed a porous carbon network decorated with PbO_<i>x</i> (0 ≤ <i>x</i> ≤ 2) nanoparticles between 10 and 50 nm. …”

Interfacial Engineering with a Nanoparticle-Decorated Porous Carbon Structure on β″-Alumina Solid-State Electrolytes for Molten Sodium Batteries by Minyuan M. Li (12616823)

“…Heat treating a simple slurry, composed only of water, acetone, carbon black, and lead acetate, formed a porous carbon network decorated with PbO_<i>x</i> (0 ≤ <i>x</i> ≤ 2) nanoparticles between 10 and 50 nm. …”

The decrease in OD_320nm over time in spectrophotometric ATPase activity assays. by Kai-Yin Chau (18504230)

Eligibility criteria for expert judges (≥5 points). by Thiago Serrão-Pinto (17817523)

PI+ CD3+ T cells decrease at day 14 after IR while PI+ CD3- cells decrease at all time points. by Jordan A. Gunning (18143970)

Subjects:

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. …”

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. …”

Influence of Interfacial Gas Enrichment on Controlled Coalescence of Oil Droplets in Water in Microfluidics by Jianlong Wang (438075)

“…When the amount of dissolved gases (oxygen) in oil decreases (from 7.89 to 4.59 mg/L), the average drainage time of coalescence significantly increases (from 19 to 50 ms). …”

Results isoprenaline (30nM) experiment. by L. Cao (3526226)