Publications
"Dissociate lattice oxygen redox reactions from capacity and voltage drops of battery electrodes." Science Advances 6.6 (2020) eaaw3871.
. "Extended Interfacial Stability through Simple Acid Rinsing in a Li-Rich Oxide Cathode Material." Journal of the American Chemical Society 142.18 (2020) 8522 - 8531.
. "How Bulk Sensitive is Hard X-ray Photoelectron Spectroscopy: Accounting for the Cathode–Electrolyte Interface when Addressing Oxygen Redox." The Journal of Physical Chemistry Letters 11.6 (2020) 2106 - 2112.
. "Negligible voltage hysteresis with strong anionic redox in conventional battery electrode." Nano Energy 74 (2020) 104831.
. "Negligible voltage hysteresis with strong anionic redox in conventional battery electrode." Nano Energy 74 (2020) 104831.
. "Role of Redox‐Inactive Transition‐Metals in the Behavior of Cation‐Disordered Rocksalt Cathodes." Small 16.22 (2020) 2000656.
. "Role of Redox‐Inactive Transition‐Metals in the Behavior of Cation‐Disordered Rocksalt Cathodes." Small 16.22 (2020) 2000656.
. "Ultrahigh power and energy density in partially ordered lithium-ion cathode materials." Nature Energy 5.3 (2020) 213 - 221.
. "Anomalous metal segregation in lithium-rich material provides design rules for stable cathode in lithium-ion battery." Nature Communications 10.1 (2019).
. "P2-type Na 2/3 Ni 1/3Mn 2/3O 2 Cathode Material with Excellent Rate and Cycling Performance for Sodium-Ion Batteries." Journal of The Electrochemical Society 166.16 (2019) A3980 - A3986.
. . "Design principles for high transition metal capacity in disordered rocksalt Li-ion cathodes." Energy & Environmental Science 11.8 (2018) 2159 - 2171.
. "Elucidating anionic oxygen activity in lithium-rich layered oxides." Nature Communications 9.1 (2018).
. "Effect of excess lithium in LiMn 2O 4and Li 1.15Mn 1.85O 4electrodes revealed by quantitative analysis of soft X-ray absorption spectroscopy." Applied Physics Letters 110.9 (2017) 093902.
. "Mitigating oxygen loss to improve the cycling performance of high capacity cation-disordered cathode materials." Nature Communications 8.1 (2017).
. "Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries." Chemical Reviews 117.21 (2017) 13123 - 13186.
. "Effect of Chromium and Niobium Doping on the Morphology and Electrochemical Performance of High-Voltage Spinel LiNi0.5Mn1.5O4 Cathode Material." ACS Applied Materials & Interfaces 8.14 (2016) 9116 - 9124.
. "Conductive Polymer Binder for High-Tap-Density Nanosilicon Material for Lithium-Ion Battery Negative Electrode Application." Nano Letters 15.12 (2015) 7927 - 7932.
. "Manipulating the polarity of conductive polymer binders for Si-based anodes in lithium-ion batteries." Journal of Materials Chemistry A 3.7 (2015) 3651 - 3658.
. "Revealing and suppressing surface Mn(II) formation of Na0.44MnO2 electrodes for Na-ion batteries." Nano Energy 16 (2015) 186 - 195.
. "Side-Chain Conducting and Phase-Separated Polymeric Binders for High-Performance Silicon Anodes in Lithium-Ion Batteries." Journal of the American Chemical Society 137.7 (2015) 2565 - 2571.
. "Distinct Solid-Electrolyte-Interphases on Sn (100) and (001) Electrodes Studied by Soft X-Ray Spectroscopy." Advanced Materials Interfaces (2014).
. "The origin of high electrolyte–electrode interfacial resistances in lithium cells containing garnet type solid electrolytes." Physical Chemistry Chemical Physics 16.34 (2014) 18294-18300.
. "Distinct charge dynamics in battery electrodes revealed by in situ and operando soft X-ray spectroscopy." Nature communications 4 (2013).
. "Surface Defects: Possible Source of Room Temperature Ferromagnetism in Co-Doped ZnO Nanorods." The Journal of Physical Chemistry C 117.17 (2013) 8968-8973.
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