Search Results - "Faenza, Nicholas V"

Evolution of the Electrode–Electrolyte Interface of LiNi0.8Co0.15Al0.05O2 Electrodes Due to Electrochemical and Thermal Stress by Lebens-Higgins, Zachary W, Sallis, Shawn, Faenza, Nicholas V, Badway, Fadwa, Pereira, Nathalie, Halat, David M, Wahila, Matthew, Schlueter, Christoph, Lee, Tien-Lin, Yang, Wanli, Grey, Clare P, Amatucci, Glenn G, Piper, Louis F. J

“…For layered oxide cathodes, impedance growth and capacity fade related to reactions at the cathode–electrolyte interface (CEI) are particularly prevalent at…”
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How Bulk Sensitive is Hard X‑ray Photoelectron Spectroscopy: Accounting for the Cathode–Electrolyte Interface when Addressing Oxygen Redox by Lebens-Higgins, Zachary W, Chung, Hyeseung, Zuba, Mateusz J, Rana, Jatinkumar, Li, Yixuan, Faenza, Nicholas V, Pereira, Nathalie, McCloskey, Bryan D, Rodolakis, Fanny, Yang, Wanli, Whittingham, M. Stanley, Amatucci, Glenn G, Meng, Ying Shirley, Lee, Tien-Lin, Piper, Louis F. J

“…Sensitivity to the “bulk” oxygen core orbital makes hard X-ray photoelectron spectroscopy (HAXPES) an appealing technique for studying oxygen redox candidates…”
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Distinction between Intrinsic and X‑ray-Induced Oxidized Oxygen States in Li-Rich 3d Layered Oxides and LiAlO2 by Lebens-Higgins, Zachary W, Vinckeviciute, Julija, Wu, Jinpeng, Faenza, Nicholas V, Li, Yixuan, Sallis, Shawn, Pereira, Nathalie, Meng, Ying Shirley, Amatucci, Glenn G, Der Ven, Anton Van, Yang, Wanli, Piper, Louis F. J

“…Resonant inelastic X-ray scattering (RIXS) at the O K-edge is considered a prime technique to identify bulk oxidized oxygen formation, but its fundamental…”
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Surface Chemistry Dependence on Aluminum Doping in Ni-rich LiNi0.8Co0.2−yAlyO2 Cathodes by Lebens-Higgins, Zachary W., Halat, David M., Faenza, Nicholas V., Wahila, Matthew J., Mascheck, Manfred, Wiell, Tomas, Eriksson, Susanna K., Palmgren, Paul, Rodriguez, Jose, Badway, Fadwa, Pereira, Nathalie, Amatucci, Glenn G., Lee, Tien-Lin, Grey, Clare P., Piper, Louis F. J.

“…Aluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte interface (CEI) stability. Aluminum in the bulk is known to…”
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Surface Structural and Chemical Evolution of Layered LiNi0.8Co0.15Al0.05O2 (NCA) under High Voltage and Elevated Temperature Conditions by Mukherjee, Pinaki, Faenza, Nicholas V, Pereira, Nathalie, Ciston, Jim, Piper, Louis F. J, Amatucci, Glenn G, Cosandey, Frederic

“…This paper reports new insights into structural and chemical evolution of surface phases of LiNi0.8Co0.15Al0.05O2 (NCA) held at constant high voltages (up to…”
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Electrolyte-Induced Surface Transformation and Transition-Metal Dissolution of Fully Delithiated LiNi0.8Co0.15Al0.05O2 by Faenza, Nicholas V, Lebens-Higgins, Zachary W, Mukherjee, Pinaki, Sallis, Shawn, Pereira, Nathalie, Badway, Fadwa, Halajko, Anna, Ceder, Gerbrand, Cosandey, Frederic, Piper, Louis. F. J, Amatucci, Glenn G

“…Enabling practical utilization of layered R3̅m positive electrodes near full delithiation requires an enhanced understanding of the complex…”
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Origin of Rapid Delithiation In Secondary Particles Of LiNi0.8Co0.15Al0.05O2 and LiNiyMnzCo1−y−zO2 Cathodes by Wolfman, Mark, May, Brian M, Goel, Vishwas, Du, Sicen, Young‐Sang Yu, Faenza, Nicholas V, Pereira, Nathalie, Grenier, Antonin, Wiaderek, Kamila M, Xu, Ruqing, Wang, Jiajun, Chapman, Karena W, Amatucci, Glenn G, Thornton, Katsuyo, Cabana, Jordi

“…Most research on the electrochemical dynamics in materials for high‐energy Li‐ion batteries has focused on the global behavior of the electrode. This approach…”
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Mapping Competitive Reduction upon Charging in LiNi0.8Co0.15Al0.05O2 Primary Particles by Wolfman, Mark, Yu, Young-Sang, May, Brian M, Lebens-Higgins, Zachary W, Sallis, Shawn, Faenza, Nicholas V, Pereira, Nathalie, Shirato, Nozomi, Rose, Volker, Shapiro, David A, Amatucci, Glenn G, Piper, Louis F. J, Cabana, Jordi

“…Side reactions involving surface reduction play a critical role in the failure of LiNi0.8Co0.15Al0.05O2 to reach its theoretical capacity as a cathode material…”
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Electrolyte-Induced Surface Transformation and Transition-Metal Dissolution of Fully Delithiated LiNi 0.8 Co 0.15 Al 0.05 O 2 by Faenza, Nicholas V, Lebens-Higgins, Zachary W, Mukherjee, Pinaki, Sallis, Shawn, Pereira, Nathalie, Badway, Fadwa, Halajko, Anna, Ceder, Gerbrand, Cosandey, Frederic, Piper, Louis F J, Amatucci, Glenn G

“…Enabling practical utilization of layered R3̅m positive electrodes near full delithiation requires an enhanced understanding of the complex…”
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Origin of Rapid Delithiation In Secondary Particles Of LiNi 0.8 Co 0.15 Al 0.05 O 2 and LiNi y Mn z Co 1− y − z O 2 Cathodes by Wolfman, Mark, May, Brian M., Goel, Vishwas, Du, Sicen, Yu, Young‐Sang, Faenza, Nicholas V., Pereira, Nathalie, Grenier, Antonin, Wiaderek, Kamila M., Xu, Ruqing, Wang, Jiajun, Chapman, Karena W., Amatucci, Glenn G., Thornton, Katsuyo, Cabana, Jordi

“…Abstract Most research on the electrochemical dynamics in materials for high‐energy Li‐ion batteries has focused on the global behavior of the electrode. This…”
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Surface Structural and Chemical Evolution of Layered LiNi 0.8 Co 0.15 Al 0.05 O 2 (NCA) under High Voltage and Elevated Temperature Conditions by Mukherjee, Pinaki, Faenza, Nicholas V., Pereira, Nathalie, Ciston, Jim, Piper, Louis F. J., Amatucci, Glenn G., Cosandey, Frederic

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Surface Structural and Chemical Evolution of Layered LiNi0.8Co 0.15Al 0.05O2 (NCA) under High Voltage and Elevated Temperature Conditions by Mukherjee, Pinaki, Faenza, Nicholas V., Pereira, Nathalie, Ciston, Jim, Piper, Louis F. J., Amatucci, Glenn G., Cosandey, Frederic

“…This work reports new insights into structural and chemical evolution of surface phases of LiNi0.8Co0.15Al0.05O2 (NCA) held at constant high voltages (up to…”
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Mapping Competitive Reduction upon Charging in LiNi 0.8 Co 0.15 Al 0.05 O 2 Primary Particles by Wolfman, Mark, Yu, Young-Sang, May, Brian M., Lebens-Higgins, Zachary W., Sallis, Shawn, Faenza, Nicholas V., Pereira, Nathalie, Shirato, Nozomi, Rose, Volker, Shapiro, David A., Amatucci, Glenn G., Piper, Louis F. J., Cabana, Jordi

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Distinction between Intrinsic and X-ray-Induced Oxidized Oxygen States in Li-Rich 3d Layered Oxides and LiAlO 2 by Lebens-Higgins, Zachary W., Vinckeviciute, Julija, Wu, Jinpeng, Faenza, Nicholas V., Li, Yixuan, Sallis, Shawn, Pereira, Nathalie, Meng, Ying Shirley, Amatucci, Glenn G., Der Ven, Anton Van, Yang, Wanli, Piper, Louis F. J.

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Phase Evolution and Degradation Modes of R 3̅ m Li x Ni 1– y – z Co y Al z O 2 Electrodes Cycled Near Complete Delithiation by Faenza, Nicholas V., Pereira, Nathalie, Halat, David M., Vinckeviciute, Julija, Bruce, Lejandro, Radin, Maxwell D., Mukherjee, Pinaki, Badway, Fadwa, Halajko, Anna, Cosandey, Frederic, Grey, Clare P., Van der Ven, Anton, Amatucci, Glenn G.

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The Phase Evolution and Degradation Modes of $ R\overline{3}$m LixNi1-y-zCoyAlzO2 Electrodes Cycled Near Complete Delithiation by Faenza, Nicholas V., Pereira, Nathalie, Halat, David M., Vinckeviciute, Julija, Bruce, Lejandro, Radin, Maxwell D., Mukherjee, Pinaki, Badway, Fadwa, Halajko, Anna, Cosandey, Frederic, Grey, Clare P., Van der Ven, Anton, Amatucci, Glenn G.

“…We report that the practical utilization of energy densities near the theoretical limit for $ R\overline{3}m$ layered oxide positive electrode materials is…”
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Evolution of the Electrode–Electrolyte Interface of LiNi 0.8 Co 0.15 Al 0.05 O 2 Electrodes Due to Electrochemical and Thermal Stress by Lebens-Higgins, Zachary W., Sallis, Shawn, Faenza, Nicholas V., Badway, Fadwa, Pereira, Nathalie, Halat, David M., Wahila, Matthew, Schlueter, Christoph, Lee, Tien-Lin, Yang, Wanli, Grey, Clare P., Amatucci, Glenn G., Piper, Louis F. J.

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Surface Chemistry Dependence on Aluminum Doping in Ni-rich LiNi 0.8 Co 0.2-y Al y O 2 Cathodes by Lebens-Higgins, Zachary W, Halat, David M, Faenza, Nicholas V, Wahila, Matthew J, Mascheck, Manfred, Wiell, Tomas, Eriksson, Susanna K, Palmgren, Paul, Rodriguez, Jose, Badway, Fadwa, Pereira, Nathalie, Amatucci, Glenn G, Lee, Tien-Lin, Grey, Clare P, Piper, Louis F J

“…Aluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte interface (CEI) stability. Aluminum in the bulk is known to…”
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Surface Chemistry Dependence on Aluminum Doping in Ni-rich LiNi0.8Co0.2−y Al y O2 Cathodes by Lebens-Higgins, Zachary W, Halat, David M, Faenza, Nicholas V, Wahila, Matthew J, Mascheck, Manfred, Wiell, Tomas, Eriksson, Susanna K, Palmgren, Paul, Rodriguez, Jose, Badway, Fadwa, Pereira, Nathalie, Amatucci, Glenn G, Tien-Lin, Lee, Grey, Clare P, Piper, Louis F J

“…Aluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte interface (CEI) stability. Aluminum in the bulk is known to…”
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Phase Evolution and Degradation Modes of R3̅m Li x Ni1–y–z Co y Al z O2 Electrodes Cycled Near Complete Delithiation by Faenza, Nicholas V, Pereira, Nathalie, Halat, David M, Vinckeviciute, Julija, Bruce, Lejandro, Radin, Maxwell D, Mukherjee, Pinaki, Badway, Fadwa, Halajko, Anna, Cosandey, Frederic, Grey, Clare P, Van der Ven, Anton, Amatucci, Glenn G

“…Practical utilization of energy densities near the theoretical limit for R3̅m layered oxide positive electrode materials is dependent on the stability of the…”
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