Search Results - "Wrubel, Jacob A"

A scalable membrane electrode assembly architecture for efficient electrochemical conversion of CO2 to formic acid by Hu, Leiming, Wrubel, Jacob A., Baez-Cotto, Carlos M., Intia, Fry, Park, Jae Hyung, Kropf, Arthur Jeremy, Kariuki, Nancy, Huang, Zhe, Farghaly, Ahmed, Amichi, Lynda, Saha, Prantik, Tao, Ling, Cullen, David A., Myers, Deborah J., Ferrandon, Magali S., Neyerlin, K. C.

“…The electrochemical reduction of carbon dioxide to formic acid is a promising pathway to improve CO 2 utilization and has potential applications as a hydrogen…”
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How the Porous Transport Layer Interface Affects Catalyst Utilization and Performance in Polymer Electrolyte Water Electrolysis by Weber, Carl Cesar, Wrubel, Jacob A., Gubler, Lorenz, Bender, Guido, De Angelis, Salvatore, Büchi, Felix N.

“…Cost reduction and fast scale-up of electrolyzer technologies are essential for decarbonizing several crucial branches of industry. For polymer electrolyte…”
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Modeling the performance and faradaic efficiency of solid oxide electrolysis cells using doped barium zirconate perovskite electrolytes by Wrubel, Jacob A., Gifford, Jeffrey, Ma, Zhiwen, Ding, Hanping, Ding, Dong, Zhu, Tianli

“…Y-doped BaZrO3 (BaZr1−xYxO3−δ, or “BZY”), a proton-conducting ceramic featuring high bulk conductivity and good chemical stability, is a promising electrolyte…”
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Discovering Reactant Supply Pathways at Electrode/PEM Reaction Interfaces Via a Tailored Interface‐Visible Characterization Cell by Wang, Weitian, Ding, Lei, Xie, Zhiqiang, Yu, Shule, Canfield, Brian, Bender, Guido, Wrubel, Jacob A., Pivovar, Bryan S., Zhang, Feng‐Yuan

“…In situ and micro‐scale visualization of electrochemical reactions and multiphase transports on the interface of porous transport electrode (PTE) materials and…”
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Ultrathin Microporous Transport Layers: Implications for Low Catalyst Loadings, Thin Membranes, and High Current Density Operation for Proton Exchange Membrane Electrolysis by Schuler, Tobias, Weber, Carl Cesar, Wrubel, Jacob A., Gubler, Lorenz, Pivovar, Bryan, Büchi, Felix N., Bender, Guido

“…Porous transport layers (PTL) and their surface properties have the potential to improve the performance of proton exchange membrane water electrolyzers…”
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Exploring the Impacts of Conditioning on Proton Exchange Membrane Electrolyzers by In Situ Visualization and Electrochemistry Characterization by Wang, Weitian, Li, Kui, Ding, Lei, Yu, Shule, Xie, Zhiqiang, Cullen, David A, Yu, Haoran, Bender, Guido, Kang, Zhenye, Wrubel, Jacob A, Ma, Zhiwen, Capuano, Christopher B, Keane, Alex, Ayers, Kathy, Zhang, Feng-Yuan

“…For a proton exchange membrane electrolyzer cell (PEMEC), conditioning is an essential process to enhance its performance, reproducibility, and economic…”
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Manufacture and testing of biomass-derivable thermosets for wind blade recycling by Clarke, Ryan W, Rognerud, Erik G, Puente-Urbina, Allen, Barnes, David, Murdy, Paul, McGraw, Michael L, Newkirk, Jimmy M, Beach, Ryan, Wrubel, Jacob A, Hamernik, Levi J, Chism, Katherine A, Baer, Andrea L, Beckham, Gregg T, Murray, Robynne E, Rorrer, Nicholas A

“…Wind energy is helping to decarbonize the electrical grid, but wind blades are not recyclable, and current end-of-life management strategies are not…”
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In Situ Determination of Speciation and Local Structure of NaCl–SrCl2 and LiF–ZrF4 Molten Salts by Lynch, Timothy J, Birkner, Nancy R, Christian, Matthew S, Wrubel, Jacob A, Schorne-Pinto, Juliano, Van Veelen, Arjen, Bargar, John R, Besmann, Theodore M, Brinkman, Kyle S, Chiu, Wilson K. S

“…Understanding the local environment of the metal atoms in salt melts is important for modeling the properties of melts and predicting their behavior and thus…”
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In Situ Determination of Speciation and Local Structure of NaCl-SrCl 2 and LiF-ZrF 4 Molten Salts by Lynch, Timothy J, Birkner, Nancy R, Christian, Matthew S, Wrubel, Jacob A, Schorne-Pinto, Juliano, Van Veelen, Arjen, Bargar, John R, Besmann, Theodore M, Brinkman, Kyle S, Chiu, Wilson K S

“…Understanding the local environment of the metal atoms in salt melts is important for modeling the properties of melts and predicting their behavior and thus…”
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Thermal stability of specialty optical fiber coatings: Observation of kinetic compensation effect by Stolov, Andrei A., Wrubel, Jacob A., Simoff, Debra A.

“…Thermal stability of coatings used on specialty optical fibers is assessed via thermogravimetry (TG). The coating lifetimes are evaluated by analyzing dynamic…”
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High-Performance Bipolar Membrane Development for Improved Water Dissociation by Chen, Yingying, Wrubel, Jacob A., Klein, W. Ellis, Kabir, Sadia, Smith, Wilson A., Neyerlin, K. C., Deutsch, Todd G.

“…Bipolar membranes (BPMs) are the enabling component of many promising electrochemical devices used for separation and energy conversion. Here, we describe the…”
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Simultaneous three‐dimensional elemental mapping of Hollandite and Pyrochlore material phases in ceramic waste form materials by Damian, Peter Joseph C., Cocco, Alex P., Wrubel, Jacob A., Hong, Tao, Bordia, Rajendra K., Liu, Yijin, Pianetta, Piero, Amoroso, Jake W., Brinkman, Kyle S., Chiu, Wilson K. S.

“…Differential X‐ray absorption contrast tomography was performed on model ceramic composite systems to image the 3D spatial distributions of Ga and Nd…”
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Three‐dimensional mapping of crystalline ceramic waste form materials by Cocco, Alex P., DeGostin, Matthew B., Wrubel, Jacob A., Damian, Peter J., Hong, Tao, Xu, Yun, Liu, Yijin, Pianetta, Piero, Amoroso, Jake W., Brinkman, Kyle S., Chiu, Wilson K. S.

“…This work demonstrates the use of synchrotron‐based, transmission X‐ray microscopy (TXM) and scanning electron microscopy to image the 3‐D morphologies and…”
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A comprehensive modeling method for proton exchange membrane electrolyzer development by Ma, Zhiwen, Witteman, Liam, Wrubel, Jacob A., Bender, Guido

“…Hydrogen attracts significant interests as an effective energy carrier that can be derived from renewable sources. Hydrogen production using a proton-exchange…”
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Impacts of PTL coating gaps on cell performance for PEM water electrolyzer by Liu, Chang, Wrubel, Jacob A., Padgett, Elliot, Bender, Guido

“…The anode porous transport layer (PTL) is a critical component of polymer electrolyte membrane (PEM) water electrolyzers, providing electrical conduction and…”
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Impacts of PTL coating gaps on cell performance for PEM water electrolyzer by Liu, Chang, Wrubel, Jacob A., Padgett, Elliot, Bender, Guido

“…The anode porous transport layer (PTL) is a critical component of polymer electrolyte membrane (PEM) water electrolyzers, providing electrical conduction and…”
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Estimating the energy requirement for hydrogen production in proton exchange membrane electrolysis cells using rapid operando hydrogen crossover analysis by Wrubel, Jacob A., Milleville, Christian, Klein, Ellis, Zack, Jason, Park, Andrew M., Bender, Guido

“…Hydrogen (H2) crossover in proton exchange membrane water electrolyzers refers to the process by which hydrogen produced at the cathode traverses the membrane…”
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Mathematical modeling of novel porous transport layer architectures for proton exchange membrane electrolysis cells by Wrubel, Jacob A., Kang, Zhenye, Witteman, Liam, Zhang, Feng-Yuan, Ma, Zhiwen, Bender, Guido

“…Thin foil based porous transport layers (PTLs) that contain highly structured pore arrays have shown promise as anode PTLs in proton exchange membrane…”
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Insights into the rapid two-phase transport dynamics in different structured porous transport layers of water electrolyzers through high-speed visualization by Wang, Weitian, Yu, Shule, Li, Kui, Ding, Lei, Xie, Zhiqiang, Li, Yifan, Yang, Gaoqiang, Cullen, David A., Yu, Haoran, Kang, Zhenye, Wrubel, Jacob A., Ma, Zhiwen, Bender, Guido, Capuano, Christopher B., Keane, Alex, Zhang, Feng-Yuan

“…In proton exchange membrane electrolyzer cells (PEMECs), maintaining efficient two-phase transport is one of the most important functions of porous transport…”
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Mathematical modeling of novel porous transport layer architectures for proton exchange membrane electrolysis cells by Wrubel, Jacob A., Kang, Zhenye, Witteman, Liam, Zhang, Feng-Yuan, Ma, Zhiwen, Bender, Guido

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