Search Results - "Rudnicki, Paul"

Dendrite Suppression by a Polymer Coating: A Coarse‐Grained Molecular Study by Kong, Xian, Rudnicki, Paul E., Choudhury, Snehashis, Bao, Zhenan, Qin, Jian

“…A major hurdle to the successful deployment of high‐energy‐density lithium metal based batteries is dendrite growth during battery cycling, which raises safety…”
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Steric Effect Tuned Ion Solvation Enabling Stable Cycling of High-Voltage Lithium Metal Battery by Chen, Yuelang, Yu, Zhiao, Rudnicki, Paul, Gong, Huaxin, Huang, Zhuojun, Kim, Sang Cheol, Lai, Jian-Cheng, Kong, Xian, Qin, Jian, Cui, Yi, Bao, Zhenan

“…1,2-Dimethoxyethane (DME) is a common electrolyte solvent for lithium metal batteries. Various DME-based electrolyte designs have improved long-term…”
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Suspension electrolyte with modified Li+ solvation environment for lithium metal batteries by Kim, Mun Sek, Zhang, Zewen, Rudnicki, Paul E., Yu, Zhiao, Wang, Jingyang, Wang, Hansen, Oyakhire, Solomon T., Chen, Yuelang, Kim, Sang Cheol, Zhang, Wenbo, Boyle, David T., Kong, Xian, Xu, Rong, Huang, Zhuojun, Huang, William, Bent, Stacey F., Wang, Lin-Wang, Qin, Jian, Bao, Zhenan, Cui, Yi

“…Designing a stable solid–electrolyte interphase on a Li anode is imperative to developing reliable Li metal batteries. Herein, we report a suspension…”
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Rational solvent molecule tuning for high-performance lithium metal battery electrolytes by Yu, Zhiao, Rudnicki, Paul E., Zhang, Zewen, Huang, Zhuojun, Celik, Hasan, Oyakhire, Solomon T., Chen, Yuelang, Kong, Xian, Kim, Sang Cheol, Xiao, Xin, Wang, Hansen, Zheng, Yu, Kamat, Gaurav A., Kim, Mun Sek, Bent, Stacey F., Qin, Jian, Cui, Yi, Bao, Zhenan

“…Electrolyte engineering improved cycling of Li metal batteries and anode-free cells at low current densities; however, high-rate capability and tuning of ionic…”
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Transient Voltammetry with Ultramicroelectrodes Reveals the Electron Transfer Kinetics of Lithium Metal Anodes by Boyle, David T, Kong, Xian, Pei, Allen, Rudnicki, Paul E, Shi, Feifei, Huang, William, Bao, Zhenan, Qin, Jian, Cui, Yi

“…Fully understanding the mechanism of lithium metal deposition is critical for the development of rechargeable lithium battery anodes. The heterogeneous…”
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Ion Conducting Polymer Interfaces for Lithium Metal Anodes: Impact on the Electrodeposition Kinetics by Choudhury, Snehashis, Huang, Zhuojun, Amanchukwu, Chibueze V., Rudnicki, Paul E., Chen, Yuelang, Boyle, David Thomas, Qin, Jian, Cui, Yi, Bao, Zhenan

“…Abstract Electrochemical cells that utilize metals (e.g., lithium, sodium, zinc) as anodes are under intense investigation as they are projected to replace the…”
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Proximity Matters: Interfacial Solvation Dictates Solid Electrolyte Interphase Composition by Oyakhire, Solomon T., Liao, Sheng-Lun, Shuchi, Sanzeeda Baig, Kim, Mun Sek, Kim, Sang Cheol, Yu, Zhiao, Vilá, Rafael A., Rudnicki, Paul E., Cui, Yi, Bent, Stacey F.

“…The composition of the solid electrolyte interphase (SEI) plays an important role in controlling Li–electrolyte reactions, but the underlying cause of SEI…”
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Impact of Liquid-Crystalline Chain Alignment on Charge Transport in Conducting Polymers by Rudnicki, Paul E, MacPherson, Quinn, Balhorn, Luke, Feng, Bob, Qin, Jian, Salleo, Alberto, Spakowitz, Andrew J

“…We develop a theoretical model to predict the impact of nematic liquid-crystalline alignment on charge transport in conducting polymer materials. Using polymer…”
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Distribution Cutoff for Clusters near the Gel Point by Li, Douglas T., Rudnicki, Paul E., Qin, Jian

“…The mechanical and dynamic properties of developing networks near the gel point are susceptible to the distribution of clusters coexisting with percolating…”
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Failure Process During Fast Charging of Lithium Metal Batteries with Weakly Solvating Fluoroether Electrolytes by Chen, Yuelang, Yu, Zhiao, Gong, Huaxin, Zhang, Wenbo, Rudnicki, Paul E., Huang, Zhuojun, Yu, Weilai, Kim, Sang Cheol, Boyle, David T., Sayavong, Philaphon, Celik, Hasan, Xu, Rong, Lin, Yangju, Wang, Shaoyang, Qin, Jian, Cui, Yi, Bao, Zhenan

“…While improving the lithium metal (Li) Coulombic efficiency has been a focus for electrolyte design, the performance under high current densities is less…”
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Ion Conducting Polymer Interfaces for Lithium Metal Anodes: Impact on the Electrodeposition Kinetics by Choudhury, Snehashis, Huang, Zhuojun, Amanchukwu, Chibueze V., Rudnicki, Paul E., Chen, Yuelang, Boyle, David Thomas, Qin, Jian, Cui, Yi, Bao, Zhenan

“…Abstract Electrochemical cells that utilize metals (e.g., lithium, sodium, zinc) as anodes are under intense investigation as they are projected to replace the…”
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Steric Effect Tuned Ion Solvation Enabling Stable Cycling of High-Voltage Lithium Metal Battery by Chen, Yuelang, Yu, Zhiao, Rudnicki, Paul, Gong, Huaxin, Huang, Zhuojun, Kim, Sang Cheol, Lai, Jian-Cheng, Kong, Xian, Qin, Jian, Cui, Yi, Bao, Zhenan

“…1,2-Dimethoxyethane (DME) is a common electrolyte solvent for lithium metal batteries. Various DME-based electrolyte designs have improved long-term…”
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Morphology, Stability, and Kinetics at the Lithium-Electrolyte Interface by Rudnicki, Paul E

“…Batteries incorporating a lithium metal anode can reach much higher energy densities than today's dominant lithium-ion battery chemistry, enabling the…”
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A comparative study of photosynthetic unit models for algal growth rate and fluorescence prediction under light/dark cycles by Rudnicki, Paul, Gao, Xi, Kong, Bo, Vigil, R. Dennis

“…Accurate description of light-limited algal growth, especially under short light/dark (L/D) cycles, is crucial for prediction of photobioreactor performance…”
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Views of Our Readers by Wantland, William C., Rudnicki, Paul E., Jackson, William Alan, McNeel, Albert M., Metzger, Bert L., Krisel, Jacob, Horan, Dennis J., Dobbs, M. C., McWhorter, John L., Lanier, Robert A., Cohen, Saul, Glenn, Edward A., Johnson, Myrlin O., Levedahl, Kathryn Scates, Forer, Lois G., Baugher, Peter V., Servaas, R. N., Ebinger, John B., Ericsson, Robert D., Kargman, Marie W., Halpern, Seymour

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