Publications

Dissertations | 2020s | 2010s | 2000s | 1990s | 1980s
  1. Effect of Ni on Electroless Cu Plating Rates in the Presence of 2,2'-Bipyridyl and 2-Mercaptobenzothiazole
    Lindsay G.S., Rohde D., Bernhard T., Zarwell S., Schmidt R., Bandas C.D., Gewirth, A. A. J. Electrochem. Soc. 2023.
  2. Enhanced Methanol Oxidation Using Polymer-Incorporated Rough Pt Electrodes
    Hua, Q.; Alghoraibi, N. M.; Chen, X.; Gewirth, A. A. ACS Catal. 2023.
  3. Water in the Electrical Double Layer of Ionic Liquids on Graphene
    Zheng, Q.; Goodwin, Z. A. H.; Gopalakrishnan, V.; Hoane, A. G.; Han, M.; Zhang, R.; Hawthorne, N.; Batteas, J. D.; Gewirth, A. A.; Espinosa-Marzal, R. M. ACS Nano. 2023.
  4. Enhanced Nitrate Reduction Activity from Cu-Alloy Electrodes in an Alkaline Electrolyte
    Paliwal, A.; Bandas, C. D.; Thornburg, E. S.; Haasch, R. T.; Gewirth, A. A. ACS Catal. 2023.
  5. Formation and impact of nanoscopic oriented phase domains in electrochemical crystalline electrodes
    Chen, W.; Zhan, X.; Yuan, R.; Pidaparthy, S.; Yong, A. X. B.; An, H.; Tang, Z.; Yin, K.; Patra, A.; Jeong, H.; Zhang, C.; Ta, K.; Riedel, Z. W.; Stephens, R. M.; Shoemaker, D. P.; Yang, H.; Gewirth, A. A.; Braun, P. V.; Ertekin, E.; Zuo, J.M.; Chen, Q. Nat. Mater. 2023.
  6. Potential Cycling of Silver Cathodes in an Alkaline CO2 Flow Electrolyzer for Accelerated Stress Testing and Carbonate Inhibition
    Cofell, E. R.; Park, Z.; Nwabara, U. O.; Harris, L. C.; Bhargava, S. S.; Gewirth, A. A.; Kenis, P. J. A. ACS Appl. Energy Mater. 2022.
  7. Highly Reversible Zn Anode with a Practical Areal Capacity Enabled by a Sustainable Electrolyte and Superacid Interfacial Chemistry
    Li, C.; Shyamsunder, A.; Hoane, A. G.; Long, D. M.; Kwok, C. Y.; Kotula, P. G.; Zavadil, K. R.; Gewirth, A. A.; Nazar, L. F. Joule. 2022.
  8. Tailoring the Lithium Solid Electrolyte Interphase for Highly Concentrated Electrolytes with Direct Exposure to Halogenated Solvents
    Thornburg E. S., Haasch, R. T.; Gewirth, A. A. ACS Appl. Energy Mater. 2022.
  9. Effect of Support on Oxygen Reduction Reaction Activity of Supported Iron Porphyrins
    Hua, Q.; Madsen, K. E.; Esposito, A. M.; Chen, X.; Wood, T. J.; Haasch, R. T.; Xiang, S.; Frenkel, A. I.; Fister, T. T.; Gewirth, A. A. ACS Catalysis. 2022.
  10. Beyond Local Solvation Structure: Nanometric Aggregates in Battery Electrolytes and Their Effect on Electrolyte Properties
    Yu, Z.; Balsara, N. P.; Borodin, O.; Gewirth, A. A.; Hahn, N. T.; Maginn, E. J.; Persson, K. A.; Srinivasan, V.; Toney, M. F.; Xu, K.; Zavadil, K. R.; Curtiss, L. A.; Cheng, L. ACS Energy Letters. 2022.
  11. The Adsorption Structure of Polyethylene Imine on Copper Surfaces for Electrodeposition
    Schmidt, R.; Bandas, C. D.; Gewirth, A. A.; Knaup, J. M. Physica Status Solidi-Rapid Research Letters 2021.
  12. Pb electrodeposition on (111)-textured Cu in the Presence and Absence of C1{superscript -}: a Combined Oblique Incidence Reflectivity Difference and In-situ AFM Study
    Wu, G.; Bae, S.; Gewirth, A.; Gray, J.; Zhu, X.; Thomas, M.; Schwarzacher, W.Surface Science 2021.
  13. Using Magnetometry to Understand the Relative Role of Magnetic Particles in Co-Based Catalysts for the Oxygen Reduction Reaction
    Esposito, A. M.; Magana, A.; Thornburg, E. S.; Haasch, R. T.; Yang, H.; Gewirth, A. A. The Journal of Physical Chemistry C 2021.
  14. Pressure-Dependent Electrochemical Behavior of Di-Lithium Rhodizonate Cathodes
    Madsen, K. E.; Shin, M.; Gewirth, A. AChem. Mater. 2021.
  15. Decreasing the Energy Consumption of the CO2 Electrolysis Process Using a Magnetic Field
    Bhargava, S. S.; Azmoodeh, D.; Chen, X. Y.; Cofell, E. R.; Esposito, A. M.; Verma, S.; Gewirth, A. A.; Kenis, P. J. A. ACS Energy Letters 2021.
  16. Interfacial Leveler-Accelerator Interactions in Cu Electrodeposition
    Bandas, C. D.; Rooney, R. T.; Kirbs, A.; Jager, C.; Schmidt, R.; Gewirth, A. A. ACS Applied Energy Materials 2021.
  17. Nanoheterogeneity of LiTFSI Solutions Transitions Close to a Surface and with Concentration
    Han, M.; Zhang, R.; Gewirth, A. A.; Espinosa-Marzal, R. M. Nano Letters 2021.
  18. Enabling High Capacity and Coulombic Efficiency for Li-NCM811 Cells Using a Highly Concentrated Electrolyte
    Philip, M. A.; Haasch, R. T.; Kim, J.; Yang, J.; Yang, R.; Kochetkov, I. R.; Nazar, L. F.; Gewirth, A. A. Batteries & Supercaps 2021.
  19. In Situ Strain Measurement in Solid-State Li-Ion Battery Electrodes
    Koohbor, B.; Sang, L.; Capraz, O. O.; Gewirth, A. A.; Sottos, N. R. Journal of The Electrochemical Society 2021.
  20. Effects of Superparamagnetic Iron Nanoparticles on Electrocatalysts for the Reduction of Oxygen
    Al-Zoubi, T.; Gao, W.; Schulz, C. E.; Luo, D.; DiAscro, A. M.; Wen, J.; Gewirth, A. A.; Yang, H. Inorganic Chemistry 2021.
  21. Binder-Focused Approaches to Improve the Stability of Cathodes for CO2 Electroreduction
    Nwabara, U. O.; Hernandez, A. D.; Henckel, D. A.; Chen, X.; Cofell, E. R.; de-Heer, M. P.; Verma, S.; Gewirth, A. A.; Kenis, P. J. A. ACS Applied Energy Materials 2021.
  22. Electrochemical CO2-to-ethylene conversion on polyamine-incorporated Cu electrodes
    Chen, X.; Chen, J.; Alghoraibi, N. M.; Henckel, D. A.; Zhang, R.; Nwabara, U. O.; Madsen, K. E.; Kenis, P. J.; Zimmerman, S. C.; Gewirth, A. A. Nature Catalysis 2021.
  23. Potential Dependence of the Local pH in a CO2 Reduction Electrolyzer
    Henckel, D. A.; Counihan, M. J.; Holmes, H. E.; Chen, X.; Nwabara, U. O.; Verma, S.; Rodriguez-Lopez, J.; Kenis, P. J. A.; Gewirth, A. A. ACS Catalysis 2021.
  24. Direct Observation of Interfacial Mechanical Failure in Thiophosphate Solid Electrolytes with Operando X-Ray Tomography
    Madsen, K. E.; Bassett, K. L.; Ta, K.; Sforzo, B. A.; Matusik, K. E.; Kastengren, A. L.; Gewirth, A. A. Advanced Materials Interfaces 2020.
  25. Oriented LiMn2O4 Particle Fracture from Delithiation-Driven Surface Stress
    Warburton, R. E.; Castro, F. C.; Deshpande, S.; Madsen, K. E.; Bassett, K. L.; dos Reis, R.; Gewirth, A. A.; Dravid, V. P.; Greeley, J. ACS Applied Materials & Interfaces 2020.
  26. Potential-Dependent Layering in the Electrochemical Double Layer of Water-in-Salt Electrolytes
    Zhang, R.; Han, M.; Ta, K.; Madsen, K. E.; Chen, X.; Zhang, X.; Espinosa-Marzal, R. M.; Gewirth, A. A. ACS Applied Energy Materials 2020.
  27. Hybrid liquid-solid electrolyte for a lithium metal battery
    Gewirth, A. A.; Philip M. A. US Patent App. 16/702,759 2020.
  28. Covalent Ag–C Bonding Contacts from Unprotected Terminal Acetylenes for Molecular Junctions
    Li, S.; Yu, H.; Chen, X.; Gewirth, A. A.; Moore, J. S.; Schroeder, C. M. Nano Lett. 2020.
  29. Conversion of Co Nanoparticles to CoS in MOF-Derived Porous Carbon During Cycling Facilitates Na2S Reactivity in a Na-S battery
    Zhang, R.; Esposito, A. M.; Thornburg, E.; Chen, X.; Zhang, X.; Philip, M.; Magana, A.; Gewirth, A. A. ACS Appl. Mater. Interfaces 2020.
  30. Energy Storage Mechanisms in High-Capacity Graphitic C3N4 Cathodes for Al-Ion Batteries
    Pan, C.; Shin, M.; Liu, D.; Kottwitz, M.; Zhang, R.; Nuzzo, R. G.; Gewirth, A. A. J. Phys. Chem. C 2020.
  31. Preparation of Nonprecious Metal Electrocatalysts for the Reduction of Oxygen Using a Low-Temperature Sacrificial Metal
    Al-Zoubi, T.; Zhou, Y.; Yin, X.; Janicek, B.; Sun, C.; Schulz, C. E.; Zhang, X.; Gewirth, A.A.; Huang, P.; Zelenay, P.; Yang, H.; J. Am. Chem. Soc. 2020.
  32. Highly dispersed, single-site copper catalysts for the electroreduction of CO2 to methane
    Zhang, T.; Verma, S.; Kim, S.; Fister, T. T.; Kenis, P. J. A.; Gewirth, A. A.; J. Electroanal. Chem. 2020.
  33. Controlling Speciation during CO2 Reduction on Cu-Alloy Electrodes
    Chen, X.; Henckel, D. A.; Nwabara, U. O.; Li, Y.; Frenkel, A. I.; Fister, T. T.; Kenis, P. J. A.; Gewirth, A. A.; ACS Catal 2020.