Search Results - "Berlinguette, Curtis P."

An industrial perspective on catalysts for low-temperature CO2 electrolysis by Masel, Richard I., Liu, Zengcai, Yang, Hongzhou, Kaczur, Jerry J., Carrillo, Daniel, Ren, Shaoxuan, Salvatore, Danielle, Berlinguette, Curtis P.

“…Electrochemical conversion of CO 2 to useful products at temperatures below 100 °C is nearing the commercial scale. Pilot units for CO 2 conversion to CO are…”
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CO2 electrochemical catalytic reduction with a highly active cobalt phthalocyanine by Wang, Min, Torbensen, Kristian, Salvatore, Danielle, Ren, Shaoxuan, Joulié, Dorian, Dumoulin, Fabienne, Mendoza, Daniela, Lassalle-Kaiser, Benedikt, Işci, Umit, Berlinguette, Curtis P., Robert, Marc

“…Molecular catalysts that combine high product selectivity and high current density for CO 2 electrochemical reduction to CO or other chemical feedstocks are…”
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Electrocatalytic Alloys for CO2 Reduction by He, Jingfu, Johnson, Noah J. J., Huang, Aoxue, Berlinguette, Curtis P.

“…Electrochemically reducing CO2 using renewable energy is a contemporary global challenge that will only be met with electrocatalysts capable of efficiently…”
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π covalency in the halogen bond by Kellett, Cameron W., Kennepohl, Pierre, Berlinguette, Curtis P.

“…Halogen bonds are a highly directional class of intermolecular interactions widely employed in chemistry and chemical biology. This linear interaction is…”
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Water Oxidation Catalysis: Electrocatalytic Response to Metal Stoichiometry in Amorphous Metal Oxide Films Containing Iron, Cobalt, and Nickel by Smith, Rodney D. L, Prévot, Mathieu S, Fagan, Randal D, Trudel, Simon, Berlinguette, Curtis P

“…Photochemical metal–organic deposition (PMOD) was used to prepare amorphous metal oxide films containing specific concentrations of iron, cobalt, and nickel to…”
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High‐Throughput Synthesis of Mixed‐Metal Electrocatalysts for CO2 Reduction by He, Jingfu, Dettelbach, Kevan E., Salvatore, Danielle A., Li, Tengfei, Berlinguette, Curtis P.

“…The utilization of CO2 as a feedstock requires fundamental breakthroughs in catalyst design. The efficiencies and activities of pure metal electrodes towards…”
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Photoelectrochemical oxidation of organic substrates in organic media by Li, Tengfei, Kasahara, Takahito, He, Jingfu, Dettelbach, Kevan E., Sammis, Glenn M., Berlinguette, Curtis P.

“…There is a global effort to convert sunlight into fuels by photoelectrochemically splitting water to form hydrogen fuels, but the dioxygen byproduct bears…”
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Homogeneous water oxidation catalysts containing a single metal site by Wasylenko, Derek J, Palmer, Ryan D, Berlinguette, Curtis P

“…The recent recognition that a single metal site is capable of mediating the multiple electron and proton transfer events associated with water oxidation…”
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Facile Photochemical Preparation of Amorphous Iridium Oxide Films for Water Oxidation Catalysis by Smith, Rodney D. L, Sporinova, Barbora, Fagan, Randal D, Trudel, Simon, Berlinguette, Curtis P

“…Light-driven decomposition of Ir(acac)3 spin-cast on a conducting glass substrate produces a thin conformal film of amorphous iridium oxide, a-IrO x . The…”
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Photochemical Route for Accessing Amorphous Metal Oxide Materials for Water Oxidation Catalysis by Smith, Rodney D. L., Prévot, Mathieu S., Fagan, Randal D., Zhang, Zhipan, Sedach, Pavel A., Siu, Man Kit Jack, Trudel, Simon, Berlinguette, Curtis P.

“…Large-scale electrolysis of water for hydrogen generation requires better catalysts to lower the kinetic barriers associated with the oxygen evolution reaction…”
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Bis(tridentate) Ruthenium–Terpyridine Complexes Featuring Microsecond Excited-State Lifetimes by Brown, Douglas G, Sanguantrakun, Nawaporn, Schulze, Benjamin, Schubert, Ulrich S, Berlinguette, Curtis P

“…A series of heteroleptic bis(tridentate) ruthenium(II) complexes, each bearing a substituted 2,2′:6′,2″-terpyridine (terpy) ligand, is characterized by room…”
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Accounting for the Dynamic Oxidative Behavior of Nickel Anodes by Smith, Rodney D. L, Berlinguette, Curtis P

“…The dynamic behavior of the anodic peak for amorphous nickel oxy/hydroxide (a-NiO x ) films in basic media was investigated. Chronocoulometry of films with…”
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A self-driving laboratory advances the Pareto front for material properties by MacLeod, Benjamin P., Parlane, Fraser G. L., Rupnow, Connor C., Dettelbach, Kevan E., Elliott, Michael S., Morrissey, Thomas D., Haley, Ted H., Proskurin, Oleksii, Rooney, Michael B., Taherimakhsousi, Nina, Dvorak, David J., Chiu, Hsi N., Waizenegger, Christopher E. B., Ocean, Karry, Mokhtari, Mehrdad, Berlinguette, Curtis P.

“…Useful materials must satisfy multiple objectives, where the optimization of one objective is often at the expense of another. The Pareto front reports the…”
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Strain Engineering Electrocatalysts for Selective CO2 Reduction by Jansonius, Ryan P, Reid, Lacey M, Virca, Carolyn N, Berlinguette, Curtis P

“…Lattice strain can enhance the activity and selectivity of electrochemical reactions by breaking the linear scaling relationship. Notwithstanding, the explicit…”
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Managing Hydration at the Cathode Enables Efficient CO2 Electrolysis at Commercially Relevant Current Densities by Reyes, Angelica, Jansonius, Ryan P, Mowbray, Benjamin A. W, Cao, Yang, Wheeler, Danika G, Chau, Jacky, Dvorak, David J, Berlinguette, Curtis P

“…Gas-fed CO2 electrochemical flow reactors are appealing platforms for the electrolytic conversion of CO2 into fuels and chemical feedstocks at commercially…”
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Bioelectrocatalysis with a palladium membrane reactor by Kurimoto, Aiko, Nasseri, Seyed A., Hunt, Camden, Rooney, Mike, Dvorak, David J., LeSage, Natalie E., Jansonius, Ryan P., Withers, Stephen G., Berlinguette, Curtis P.

“…Enzyme catalysis is used to generate approximately 50,000 tons of value-added chemical products per year. Nearly a quarter of this production requires a…”
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Electrolysis of CO2 to Syngas in Bipolar Membrane-Based Electrochemical Cells by Li, Yuguang C, Zhou, Dekai, Yan, Zhifei, Gonçalves, Ricardo H, Salvatore, Danielle A, Berlinguette, Curtis P, Mallouk, Thomas E

“…The electrolysis of CO2 to syngas (CO + H2) using nonprecious metal electrocatalysts was studied in bipolar membrane-based electrochemical cells. Electrolysis…”
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Ring walking as a regioselectivity control element in Pd-catalyzed C-N cross-coupling by Deem, Madeleine C., Derasp, Joshua S., Malig, Thomas C., Legard, Kea, Berlinguette, Curtis P., Hein, Jason E.

“…Ring walking is an important mechanistic phenomenon leveraged in many catalytic C-C bond forming reactions. However, ring walking has been scarcely studied…”
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Indirect H2O2 synthesis without H2 by Fink, Arthur G., Delima, Roxanna S., Rousseau, Alexandra R., Hunt, Camden, LeSage, Natalie E., Huang, Aoxue, Stolar, Monika, Berlinguette, Curtis P.

“…Industrial hydrogen peroxide (H 2 O 2 ) is synthesized using carbon-intensive H 2 gas production and purification, anthraquinone hydrogenation, and…”
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Electrolytic CO2 Reduction in Tandem with Oxidative Organic Chemistry by Li, Tengfei, Cao, Yang, He, Jingfu, Berlinguette, Curtis P

“…Electrochemical reduction of CO2 into carbon-based products using excess clean electricity is a compelling method for producing sustainable fuels while…”
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