Search Results - "Adkins, Emily R."

Prevalence of unmasked and improperly masked behavior in indoor public areas during the COVID-19 pandemic: Analysis of a stratified random sample from Louisville, Kentucky by Karimi, Seyed M, Salunkhe, Sonali S, White, Kelsey B, Little, Bert B, McKinney, W Paul, Mitra, Riten, Chen, YuTing, Adkins, Emily R, Barclay, Julia A, Ezekekwu, Emmanuel, He, Caleb X, Hurst, Dylan M, Popescu, Martha M, Swinney, Devin N, Johnson, David A, Hollenbach, Rebecca, Moyer, Sarah S, DuPré, Natalie C

“…Wearing a facial mask can limit COVID-19 transmission. Measurements of communities' mask use behavior have mostly relied on self-report. This study's objective…”
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Design of Carbon Nanotube-Based Gas-Diffusion Cathode for O2 Reduction by Multicopper Oxidases by Lau, Carolin, Adkins, Emily R., Ramasamy, Ramaraja P., Luckarift, Heather R., Johnson, Glenn R., Atanassov, Plamen

“…Multicopper oxidases, such as laccase or bilirubin oxidase, are known to reduce molecular oxygen at very high redox potentials, which makes them attractive…”
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In Situ Transmission Electron Microsopy of Oxide Shell-Induced Pore Formation in (De)lithiated Silicon Nanowires by Adkins, Emily R, Jiang, Taizhi, Luo, Langli, Wang, Chong-Min, Korgel, Brian A

“…Silicon (Si) nanowires with a silicon oxide (SiO x ) shell undergoing lithiation and delithiation were examined by in situ transmission electron microscopy…”
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Germanium as a Sodium Ion Battery Material: In Situ TEM Reveals Fast Sodiation Kinetics with High Capacity by Lu, Xiaotang, Adkins, Emily R., He, Yang, Zhong, Li, Luo, Langli, Mao, Scott X., Wang, Chong-Min, Korgel, Brian A.

“…A significant amount of research is taking place to create energy storage concepts beyond the lithium ion battery and to utilize alternative ions, such as Na,…”
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Design of Carbon Nanotube‐Based Gas‐Diffusion Cathode for O 2 Reduction by Multicopper Oxidases by Lau, Carolin, Adkins, Emily R., Ramasamy, Ramaraja P., Luckarift, Heather R., Johnson, Glenn R., Atanassov, Plamen

“…Multicopper oxidases, such as laccase or bilirubin oxidase, are known to reduce molecular oxygen at very high redox potentials, which makes them attractive…”
Get full text

Design of Carbon Nanotube-Based Gas-Diffusion Cathode for O sub(2) Reduction by Multicopper Oxidases by Lau, Carolin, Adkins, Emily R, Ramasamy, Ramaraja P, Luckarift, Heather R, Johnson, Glenn R, Atanassov, Plamen

“…Multicopper oxidases, such as laccase or bilirubin oxidase, are known to reduce molecular oxygen at very high redox potentials, which makes them attractive…”
Get full text