Wang, Han Su, Gregory M Barnett, Brandon R Drisdell, Walter S Long, Jeffrey R Prendergast, David
The L2,3-edge X-ray absorption spectra of late transition metals such as Cu, Ag, and Au exhibit absorption onsets lower in energy for higher oxidation states, which is at odds with the measured spectra of earlier transition metals. Time-dependent density functional theory calculations for Cu2+/Cu+ reveal a larger 2p core-exciton binding energy for ...
Gordon, JM Batchelder, JC Bernstein, LA Bleuel, DL Brand, CA Brown, JA Goldblum, BL Frandsen, BG Laplace, TA Nagel, T
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Improved neutron inelastic scattering cross section data are needed to inform integral benchmark studies and advance applications in a wide variety of areas including nuclear energy, stockpile stewardship, nonproliferation, and space exploration. Neutron inelastic scattering also serves as a non-selective probe of low-lying nuclear structure. To he...
Zhu, Yuntong Kennedy, Ellis R Yasar, Bengisu Paik, Haemin Zhang, Yaqian Hood, Zachary D Scott, Mary Rupp, Jennifer LM
Highly disordered amorphous Li7La3Zr2O12 (aLLZO) is a promising class of electrolyte separators and protective layers for hybrid or all-solid-state batteries due to its grain-boundary-free nature and wide electrochemical stability window. Unlike low-entropy ionic glasses such as LixPOyNz (LiPON), these medium-entropy non-Zachariasen aLLZO phases of...
Li, Han Pinto, Giuseppe Piscitelli, Marco Savino Capozzoli, Alfonso Hong, Tianzhen
Understanding thermal dynamics and obtaining the computational model of residential buildings enable its scaled application in energy retrofits, control optimization and decarbonization. In this paper, we present a deep learning approach to model building thermal dynamics with smart thermostat data collected from residential buildings, with the goa...
Yoon, Nari Norford, Leslie Wetter, Michael Malkawi, Ali
Building energy simulations often rely on abstract assumptions when it comes to natural ventilation, such as ‘windows always open [or closed]’ or ‘windows open when outdoor temperature is below a certain threshold.’ However, simulations based on these assumptions fail to fully exploit the cooling potential of natural ventilation, as its effectivene...
Stracensky, Thomas Mukundan, Rangachary Maurya, Sandip Mukerjee, Sanjeev
Non-aqueous redox flow batteries have shown promise for applications in grid energy storage. Increasing the efficiency of these batteries by developing the electrolyte chemistries is needed. Herein, we investigate the correlation between solvent properties and the electrochemical parameters of vanadium acetylacetonate V(acac)3. Using cyclic voltamm...
Hansen, Niko A Price, Trevor D Filardi, Leah R Gurses, Sadi M Zhou, Wenqi Hansen, Nils Osborn, David L Zádor, Judit Kronawitter, Coleman X
Methoxymethanol (CH3OCH2OH) is a reactive C2 ether-alcohol that is formed by coupling events in both heterogeneous and homogeneous systems. It is found in complex reactive environments-for example those associated with catalytic reactors, combustion systems, and liquid-phase mixtures of oxygenates. Using tunable synchrotron-generated vacuum-ultravi...
Kang, Richard Zhao, Yang Hait, Diptarka Gauthier, Joseph A Kempler, Paul A Thurman, Kira A Boettcher, Shannon W Head-Gordon, Martin
The electrified aqueous/metal interface is critical in controlling the performance of energy conversion and storage devices, but an atomistic understanding of even basic interfacial electrochemical reactions challenges both experiment and computation. We report a combined simulation and experimental study of (reversible) ion-transfer reactions invo...
Cheng, Jianli Peng, Xinxing Zhang, Ya-Qian Tian, Yaosen Ogunfunmi, Tofunmi Haddad, Andrew Z Dopilka, Andrew Ceder, Gerbrand Persson, Kristin A Scott, Mary C
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All solid-state batteries (SSBs) are considered the most promising path to enabling higher energy-density portable energy, while concurrently improving safety as compared to current liquid electrolyte solutions. However, the desire for high energy necessitates the choice of high-voltage cathodes, such as nickel-rich layered oxides, where degradatio...
Fricke, Sophia N Salgado, Mia Menezes, Tamires Santos, Kátilla M Costa Gallagher, Neal B Song, Ah‐Young Wang, Jieyu Engler, Kaitlyn Wang, Yang Mao, Haiyan
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Nanoporous materials are of great interest in many applications, such as catalysis, separation, and energy storage. The performance of these materials is closely related to their pore sizes, which are inefficient to determine through the conventional measurement of gas adsorption isotherms. Nuclear magnetic resonance (NMR) relaxometry has emerged a...