Search Results - "Buckley, Aya K."

Electrocatalysis at Organic–Metal Interfaces: Identification of Structure–Reactivity Relationships for CO2 Reduction at Modified Cu Surfaces by Buckley, Aya K, Lee, Michelle, Cheng, Tao, Kazantsev, Roman V, Larson, David M, Goddard III, William A, Toste, F. Dean, Toma, Francesca M

“…The limited selectivity of existing CO2 reduction catalysts and rising levels of CO2 in the atmosphere necessitate the identification of specific…”
Get full text

Bimetallic Coordination Insertion Polymerization of Unprotected Polar Monomers: Copolymerization of Amino Olefins and Ethylene by Dinickel Bisphenoxyiminato Catalysts by Radlauer, Madalyn R, Buckley, Aya K, Henling, Lawrence M, Agapie, Theodor

“…Dinickel bisphenoxyiminato complexes based on highly substituted p- and m-terphenyl backbones were synthesized, and the corresponding atropisomers were…”
Get full text

CO₂ reduction on pure Cu produces only H₂ after subsurface O is depleted: Theory and experiment by Liu, Guiji, Lee, Michelle, Kwon, Soonho, Zeng, Guosong, Eichhorn, Johanna, Buckley, Aya K., Toste, F. Dean, Goddard, William A., Toma, Francesca M.

“…We elucidate the role of subsurface oxygen on the production of C₂ products from CO₂ reduction over Cu electrocatalysts using the newly developed grand…”
Get full text

Nanomaterials for carbon dioxide conversion at industrial scale by Buckley, Aya K., Ma, Sichao, Huo, Ziyang, Gao, Theodore Z., Kuhl, Kendra P.

“…Using our company’s CO 2 electrolysers as a model, we describe the challenges involved in incorporating nanomaterial catalysts into industrial-scale…”
Get full text

Stereoelectronic Effects on the Binding of Neutral Lewis Bases to CdSe Nanocrystals by Anderson, Nicholas C, Chen, Peter. E, Buckley, Aya K, De Roo, Jonathan, Owen, Jonathan S

“…Using 31P nuclear magnetic resonance (NMR) spectroscopy, we monitor the competition between tri-n-butylphosphine (Bu3P) and various amine and phosphine ligands…”
Get full text

Approaching 100% Selectivity at Low Potential on Ag for Electrochemical CO2 Reduction to CO Using a Surface Additive by Buckley, Aya K, Cheng, Tao, Oh, Myoung Hwan, Su, Gregory M, Garrison, Jennifer, Utan, Sean W, Zhu, Chenhui, Toste, F. Dean, Goddard, William A, Toma, Francesca M

“…We report the discovery of a quaternary ammonium surface additive for CO2 reduction on Ag surfaces that changes the Faradaic efficiency for CO from 25% on Ag…”
Get full text

Cu Based Dilute Alloys for Tuning the C2+ Selectivity of Electrochemical CO2 Reduction by Crandall, Bradie S., Qi, Zhen, Foucher, Alexandre C., Weitzner, Stephen E., Akhade, Sneha A., Liu, Xin, Kashi, Ajay R., Buckley, Aya K., Ma, Sichao, Stach, Eric A., Varley, Joel B., Jiao, Feng, Biener, Juergen

“…Electrochemical CO2 reduction is a promising technology for replacing fossil fuel feedstocks in the chemical industry but further improvements in catalyst…”
Get full text

Cu Based Dilute Alloys for Tuning the C 2+ Selectivity of Electrochemical CO 2 Reduction by Crandall, Bradie S, Qi, Zhen, Foucher, Alexandre C, Weitzner, Stephen E, Akhade, Sneha A, Liu, Xin, Kashi, Ajay R, Buckley, Aya K, Ma, Sichao, Stach, Eric A, Varley, Joel B, Jiao, Feng, Biener, Juergen

“…Electrochemical CO reduction is a promising technology for replacing fossil fuel feedstocks in the chemical industry but further improvements in catalyst…”
Get full text

2022 roadmap on low temperature electrochemical CO2 reduction by Stephens, Ifan E L, Chan, Karen, Bagger, Alexander, Boettcher, Shannon W, Bonin, Julien, Boutin, Etienne, Buckley, Aya K, Buonsanti, Raffaella, Cave, Etosha R, Chang, Xiaoxia, Chee, See Wee, da Silva, Alisson H M, de Luna, Phil, Einsle, Oliver, Endrődi, Balázs, Escudero-Escribano, Maria, Ferreira de Araujo, Jorge V, Figueiredo, Marta C, Hahn, Christopher, Hansen, Kentaro U, Haussener, Sophia, Hunegnaw, Sara, Huo, Ziyang, Hwang, Yun Jeong, Janáky, Csaba, Jayathilake, Buddhinie S, Jiao, Feng, Jovanov, Zarko P, Karimi, Parisa, Koper, Marc T M, Kuhl, Kendra P, Lee, Woong Hee, Liang, Zhiqin, Liu, Xuan, Ma, Sichao, Ma, Ming, Oh, Hyung-Suk, Robert, Marc, Cuenya, Beatriz Roldan, Rossmeisl, Jan, Roy, Claudie, Ryan, Mary P, Sargent, Edward H, Sebastián-Pascual, Paula, Seger, Brian, Steier, Ludmilla, Strasser, Peter, Varela, Ana Sofia, Vos, Rafaël E, Wang, Xue, Xu, Bingjun, Yadegari, Hossein, Zhou, Yuxiang

“…Electrochemical CO2 reduction (CO2R) is an attractive option for storing renewable electricity and for the sustainable production of valuable chemicals and…”
Get full text

Electrocatalysis at Organic-Metal Interfaces: Identification of Structure-Reactivity Relationships for CO 2 Reduction at Modified Cu Surfaces by Buckley, Aya K, Lee, Michelle, Cheng, Tao, Kazantsev, Roman V, Larson, David M, Goddard Iii, William A, Toste, F Dean, Toma, Francesca M

“…The limited selectivity of existing CO reduction catalysts and rising levels of CO in the atmosphere necessitate the identification of specific…”
Get full text

Aluminum Metal–Organic Framework Triggers Carbon Dioxide Reduction Activity by Lee, Michelle, De Riccardis, Alberto, Kazantsev, Roman V, Cooper, Jason K, Buckley, Aya K, Burroughs, Paul W. W, Larson, David M, Mele, Giuseppe, Toma, Francesca M

“…Confinement of metal centers is a powerful tool to manipulate reactivity and tune selectivity in chemical transformations. While aluminum as a foil is inactive…”
Get full text

2022 roadmap on low temperature electrochemical CO 2 reduction by Stephens, Ifan E L, Chan, Karen, Bagger, Alexander, Boettcher, Shannon W, Bonin, Julien, Boutin, Etienne, Buckley, Aya K, Buonsanti, Raffaella, Cave, Etosha R, Chang, Xiaoxia, Chee, See Wee, da Silva, Alisson H M, de Luna, Phil, Einsle, Oliver, Endrődi, Balázs, Escudero-Escribano, Maria, Ferreira de Araujo, Jorge V, Figueiredo, Marta C, Hahn, Christopher, Hansen, Kentaro U, Haussener, Sophia, Hunegnaw, Sara, Huo, Ziyang, Hwang, Yun Jeong, Janáky, Csaba, Jayathilake, Buddhinie S, Jiao, Feng, Jovanov, Zarko P, Karimi, Parisa, Koper, Marc T M, Kuhl, Kendra P, Lee, Woong Hee, Liang, Zhiqin, Liu, Xuan, Ma, Sichao, Ma, Ming, Oh, Hyung-Suk, Robert, Marc, Cuenya, Beatriz Roldan, Rossmeisl, Jan, Roy, Claudie, Ryan, Mary P, Sargent, Edward H, Sebastián-Pascual, Paula, Seger, Brian, Steier, Ludmilla, Strasser, Peter, Varela, Ana Sofia, Vos, Rafaël E, Wang, Xue, Xu, Bingjun, Yadegari, Hossein, Zhou, Yuxiang

“…Electrochemical CO 2 reduction (CO 2 R) is an attractive option for storing renewable electricity and for the sustainable production of valuable chemicals and…”
Get full text

Cu Based Dilute Alloys for Tuning the C2+ Selectivity of Electrochemical CO2 Reduction by Crandall, Bradie S., Qi, Zhen, Foucher, Alexandre C., Weitzner, Stephen E., Akhade, Sneha A., Liu, Xin, Kashi, Ajay R., Buckley, Aya K., Ma, Sichao, Stach, Eric A., Varley, Joel B., Jiao, Feng, Biener, Juergen

“…Abstract Electrochemical CO 2 reduction is a promising technology for replacing fossil fuel feedstocks in the chemical industry but further improvements in…”
Get full text

Effect of Gold Catalyst Surface Morphology on Wetting Behavior and Electrochemical CO2 Reduction Performance in a Large-Area Zero-Gap Gas Diffusion Electrolyzer by Qi, Zhen, Kashi, Ajay R., Buckley, Aya K., Miller, John S., Ye, Jianchao, Biener, Monika M., Foucher, Alexandre C., Stach, Eric A., Ma, Sichao, Kuhl, Kendra P., Biener, Juergen

“…Catalyst surface area and wetting behavior are key factors in determining the performance of gas diffusion electrode (GDE) electrolyzers for electrochemical…”
Get full text

CO 2 reduction on pure Cu produces only H 2 after subsurface O is depleted: Theory and experiment by Liu, Guiji, Lee, Michelle, Kwon, Soonho, Zeng, Guosong, Eichhorn, Johanna, Buckley, Aya K., Toste, F. Dean, Goddard, William A., Toma, Francesca M.

“…Electrochemical reduction of CO 2 to fuels and valuable chemicals is a global imperative to address energy and climate challenges. Despite enormous efforts,…”
Get full text

Effect of Gold Catalyst Surface Morphology on Wetting Behavior and Electrochemical CO 2 Reduction Performance in a Large-Area Zero-Gap Gas Diffusion Electrolyzer by Qi, Zhen, Kashi, Ajay R., Buckley, Aya K., Miller, John S., Ye, Jianchao, Biener, Monika M., Foucher, Alexandre C., Stach, Eric A., Ma, Sichao, Kuhl, Kendra P., Biener, Juergen

Get full text

Approaching 100% Selectivity at Low Potential on Ag for Electrochemical CO 2 Reduction to CO Using a Surface Additive by Buckley, Aya K., Cheng, Tao, Oh, Myoung Hwan, Su, Gregory M., Garrison, Jennifer, Utan, Sean W., Zhu, Chenhui, Toste, F. Dean, Goddard, William A., Toma, Francesca M.

“…We report the discovery of a quaternary ammonium surface additive for CO2 reduction on Ag surfaces that changes the Faradaic efficiency for CO from 25% on Ag…”
Get full text

Carbon Dioxide Reduction at Organic-Metal Interfaces by Buckley, Aya K

“…Chapter 1 – The rising levels of CO2 in the atmosphere necessitate further investigation into methods of converting CO2 into more valuable products. In this…”
Get full text