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1. The Breakdown of Mott Physics at VO$_2$ Surfaces

Author

Wahila, Matthew J., Quackenbush, Nicholas F., Sadowski, Jerzy T., Krisponeit, Jon-Olaf, Flege, Jan Ingo, Tran, Richard, Ong, Shyue Ping, Schlueter, Christoph, Lee, Tien-Lin, Holtz, Megan E., Muller, David A., Paik, Hanjong, Schlom, Darrell G., Lee, Wei-Cheng, and Piper, Louis F. J.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Transition metal oxides such as vanadium dioxide (VO$_2$), niobium dioxide (NbO$_2$), and titanium sesquioxide (Ti$_2$O$_3$) are known to undergo a temperature-dependent metal-insulator transition (MIT) in conjunction with a structural transition within their bulk. However, it is not typically discussed how breaking crystal symmetry via surface termination affects the complicated MIT physics. Using synchrotron-based x-ray spectroscopy, low energy electron diffraction (LEED), low energy electron microscopy (LEEM), transmission electron microscopy (TEM), and several other experimental techniques, we show that suppression of the bulk structural transition is a common feature at VO$_2$ surfaces. Our density functional theory (DFT) calculations further suggest that this is due to inherent reconstructions necessary to stabilize the surface, which deviate the electronic structure away from the bulk d$^1$ configuration. Our findings have broader ramifications not only for the characterization of other "Mott-like" MITs, but also for any potential device applications of such materials.

Published
2020

2. Unraveling the role of V-V dimer on the vibrational properties of VO$_2$ by first-principles simulations and Raman spectroscopic analysis

Author

Mondal, Wasim Raja, Evlyukhin, Egor, Howard, Sebastian A., Paez, Galo J., Paik, Hanjong, Schlom, Darrell G., Piper, Louis F J, and Lee, Wei-Cheng

Subjects
Condensed Matter - Materials Science
Abstract

We investigate the vibrational properties of VO2, particularly the low temperature M1 phase by first-principles calculations using the density functional theory as well as Raman spectroscopy. We perform the structural optimization using SCAN meta-GGA functional and obtain the optimized crystal structures for metallic rutile and insulating M1 phases satisfying all expected features of the experimentally derived structures. Based on the harmonic approximation around the optimized structures at zero temperature, we calculate the phonon properties and compare our results with experiments. We show that our calculated phonon density of states is in excellent agreement with the previous neutron scattering experiment. Moreover, we reproduce the phonon softening in the rutile phase as well as the phonon stiffening in the M1 phase. By comparing with the Raman experiments, we find that the Raman-active vibration modes of the M1 phase is strongly correlated with the V-V dimer distance of the crystal structure. Our combined theoretical and experimental framework demonstrates that Raman spectroscopy could serve as a reliable way to detect the subtle change of V-V dimer in the strained VO$_2$., Comment: 12 figures

Published
2020
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3. Influence of Polymorphism on the Electronic Structure of Ga$_2$O$_3$

Author

Swallow, Jack E. N., Vorwerk, Christian, Mazzolini, Piero, Vogt, Patrick, Bierwagen, Oliver, Karg, Alexander, Eickhoff, Martin, Schörmann, Jörg, Wagner, Markus R., Roberts, Joseph W., Chalker, Paul R., Smiles, Matthew J., Murgatroyd, Philip A. E., Razek, Sara A., Lebens-Higgins, Zachary W., Piper, Louis F. J., Jones, Leanne A. H., Thakur, Pardeep Kumar, Lee, Tien-Lin, Varley, Joel B., Furthmüller, Jürgen, Draxl, Claudia, Veal, Tim D., and Regoutz, Anna

Subjects
Condensed Matter - Materials Science
Abstract

The search for new wide band gap materials is intensifying to satisfy the need for more advanced and energy efficient power electronic devices. Ga$_2$O$_3$ has emerged as an alternative to SiC and GaN, sparking a renewed interest in its fundamental properties beyond the main $\beta$-phase. Here, three polymorphs of Ga$_2$O$_3$, $\alpha$, $\beta$ and $\varepsilon$, are investigated using X-ray diffraction, X-ray photoelectron and absorption spectroscopy, and ab initio theoretical approaches to gain insights into their structure - electronic structure relationships. Valence and conduction electronic structure as well as semi-core and core states are probed, providing a complete picture of the influence of local coordination environments on the electronic structure. State-of-the-art electronic structure theory, including all-electron density functional theory and many-body perturbation theory, provide detailed understanding of the spectroscopic results. The calculated spectra provide very accurate descriptions of all experimental spectra and additionally illuminate the origin of observed spectral features. This work provides a strong basis for the exploration of the Ga$_2$O$_3$ polymorphs as materials at the heart of future electronic device generations., Comment: Updated manuscript version after peer review

Published
2020
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4. Scalable Memdiodes Exhibiting Rectification and Hysteresis for Neuromorphic Computing

Author

Shank, Joshua C., Tellekamp, M. Brooks, Wahila, Matthew J., Howard, Sebastian, Weidenbach, Alex S., Zivasatienraj, Bill, Piper, Louis F. J., and Doolittle, W. Alan

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

Metal-Nb$_{2}$O$_{5-x}$-metal memdiodes exhibiting rectification, hysteresis, and capacitance are demonstrated for applications in neuromorphic circuitry. These devices do not require any post-fabrication treatments such as filament creation by electroforming that would impede circuit scalability. Instead these devices operate due to Poole-Frenkel defect controlled transport where the high defect density is inherent to the Nb$_{2}$O$_{5-x}$ deposition rather than post-fabrication treatments. Temperature dependent measurements reveal that the dominant trap energy is 0.22 eV suggesting it results from the oxygen deficiencies in the amorphous Nb$_{2}$O$_{5-x}$. Rectification occurs due to a transition from thermionic emission to tunneling current and is present even in thick devices (> 100 nm) due to charge trapping which controls the tunneling distance. The turn-on voltage is linearly proportional to the Schottky barrier height and, in contrast to traditional metal-insulator-metal diodes, is logarithmically proportional to the device thickness. Hysteresis in the I-V curve occurs due to the current limited filling of traps.

Published
2019
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6. High Reversibility of Lattice Oxygen Redox in Na-ion and Li-ion Batteries Quantified by Direct Bulk Probes of both Anionic and Cationic Redox Reactions

Author

Dai, Kehua, Wu, Jinpeng, Zhuo, Zengqing, Li, Qinghao, Sallis, Shawn, Mao, Jing, Ai, Guo, Sun, Chihang, Li, Zaiyuan, Gent, William E., Chueh, William C., Chuang, Yi-de, Zeng, Rong, Shen, Zhi-xun, Pan, Feng, Yan, Shishen, Piper, Louis F. J., Hussain, Zahid, Liu, Gao, and Yang, Wanli

Subjects
Physics - Chemical Physics, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

The reversibility and cyclability of anionic redox in battery electrodes hold the key to its practical employments. Here, through mapping of resonant inelastic X-ray scattering (mRIXS), we have independently quantified the evolving redox states of both cations and anions in Na2/3Mg1/3Mn2/3O2. The bulk-Mn redox emerges from initial discharge and is quantified by inverse-partial fluorescence yield (iPFY) from Mn-L mRIXS. Bulk and surface Mn activities likely lead to the voltage fade. O-K super-partial fluorescence yield (sPFY) analysis of mRIXS shows 79% lattice oxygen-redox reversibility during initial cycle, with 87% capacity sustained after 100 cycles. In Li1.17Ni0.21Co0.08Mn0.54O2, lattice-oxygen redox is 76% initial-cycle reversible but with only 44% capacity retention after 500 cycles. These results unambiguously show the high reversibility of lattice-oxygen redox in both Li-ion and Na-ion systems. The contrast between Na2/3Mg1/3Mn2/3O2 and Li1.17Ni0.21Co0.08Mn0.54O2 systems suggests the importance of distinguishing lattice-oxygen redox from other oxygen activities for clarifying its intrinsic properties., Comment: 33 pages, 8 Figures. Plus 14 pages of Supplementary Materials with 12 Figures

Published
2018
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7. Cooperative Effects of Strain and Electron Correlation in Epitaxial VO2 and NbO2

Author

Lee, Wei-Cheng, Wahila, Matthew J., Mukherjee, Shantanu, Singh, Christopher N., Eustance, Tyler, Regoutz, Anna, Paik, H., Boschker, Jos E., Rodolakis, Fanny, Lee, Tien-Lin, Schlom, D. G., and Piper, Louis F. J.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

We investigate the electronic structure of the epitaxial VO$_2$ films in the rutile phase using the density functional theory combined with the slave spin method (DFT+SS). In DFT-SS, the multiorbital Hubbard interactions are added to a DFT-fit tight-binding model, and we employ the slave-spin method to treat the electron correlation. We find that while stretching the system along the rutile $c$-axis results in a band structure favoring an anisotropic orbital fillings, the electron correlation favors an equal electron filling among $t_{2g}$ orbitals. These two distinct effects cooperatively induce interesting orbital-dependent redistributions of the electron occupations and the spectral weights, which pushes the strained VO$_2$ toward an orbital selective Mott transition (OSMT). The simulated single-particle spectral functions are directly compared to V L-edge resonant X-ray photoemission spectroscopy of epitaxial 10 nm VO$_2$/TiO$_2$ (001) and (100) strain orientations. Excellent agreement is observed between the simulations and experimental data regarding the strain-induced evolution of the lower Hubbard band. Simulations of rutile NbO$_2$ under similar strain conditions as VO$_2$ are performed, and we predict that OSMT will not occur in rutile NbO$_2$. Our results indicates that the electron correlation in VO$_2$ is important and can be modulated even in the rutile phase before the Peierls instability sets in., Comment: 8 pages, 9 figures, invited paper for Special Topic: Strain Engineering in Functional Materials by Journal of Applied Physics

Published
2018
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8. An Improved Laboratory-Based XAFS and XES Spectrometer for Analytical Applications in Materials Chemistry Research

Author

Jahrman, Evan P., Holden, William M., Ditter, Alex S., Mortensen, Devon R., Seidler, Gerald T., Fister, Timothy T., Kozimor, Stosh A., Piper, Louis F. J., Rana, Jatinkumar, Hyatt, Neil C., and Stennett, Martin C.

Subjects
Condensed Matter - Materials Science
Abstract

X-ray absorption fine structure (XAFS) and x-ray emission spectroscopy (XES) are advanced x-ray spectroscopies that impact a wide range of disciplines. However, unlike the majority of other spectroscopic methods, XAFS and XES are accompanied by an unusual access model, wherein; the dominant use of the technique is for premier research studies at world-class facilities, i.e., synchrotron x-ray light sources. In this paper we report the design and performance of an improved spectrometer XAFS and XES based on the general conceptual design of Seidler, et al., Rev. Sci. Instrum. 2014. New developments include reduced mechanical degrees of freedom, much-increased flux, and a wider Bragg angle range to enable extended x-ray absorption fine structure (EXAFS) for the first time with this type of modern laboratory XAFS configuration. This instrument enables a new class of routine applications that are incompatible with the mission and access model of the synchrotron light sources. To illustrate this, we provide numerous examples of x-ray absorption near edge structure (XANES), EXAFS, and XES results for a variety of problems and energy ranges. Highlights include XAFS and XES measurements of battery electrode materials, EXAFS of Ni and V with full modeling of results to validate monochromator performance, valence-to-core XES for 3d transition metal compounds, and uranium XANES and XES for different oxidation states. Taken en masse, these results further support the growing perspective that modern laboratory-based XAFS and XES have the potential to develop a new branch of analytical chemistry.

Published
2018
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9. Diffuson-driven Ultralow Thermal Conductivity in Amorphous Nb2O5 Thin Films

Author

Cheng, Zhe, Weidenbach, Alex, Feng, Tianli, Tellekamp, M. Brooks, Howard, Sebastian, Wahila, Matthew J., Zivasatienraj, Bill, Foley, Brian, Pantelides, Sokrates T., Piper, Louis F. J., Doolittle, William, and Graham, Samuel

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Niobium pentoxide (Nb2O5) has been extensively reported for applications of electrochemical energy storage, memristors, solar cells, light emitting diodes (LEDs), and electrochromic devices. The thermal properties of Nb2O5 play a critical role in device performance of these applications. However, very few studies on the thermal properties of Nb2O5 have been reported and a fundamental understanding of heat transport in Nb2O5 is still lacking. The present work closes this gap and provides the first study of thermal conductivity of amorphous Nb2O5 thin films. Ultralow thermal conductivity is observed without any size effect in films as thin as 48 nm, which indicates that propagons contribute negligibly to the thermal conductivity and that the thermal transport is dominated by diffusons. Density-function-theory (DFT) simulations combined with a diffuson-mediated minimum-thermal-conductivity model confirms this finding. Additionally, the measured thermal conductivity is lower than the amorphous limit (Cahill model), which proves that the diffuson model works better than the Cahill model to describe the thermal conduction mechanism in the amorphous Nb2O5 thin films. Additionally, the thermal conductivity does not change significantly with oxygen vacancy concentration. This stable and low thermal conductivity facilitates excellent performance for applications such as memristors.

Published
2018
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10. Automated Generation and Ensemble-Learned Matching of X-ray Absorption Spectra

Author

Zheng, Chen, Mathew, Kiran, Chen, Chi, Chen, Yiming, Tang, Hanmei, Dozier, Alan, Kas, Joshua J., Vila, Fernando D., Rehr, John J., Piper, Louis F. J., Persson, Kristin, and Ong, Shyue Ping

Subjects
Condensed Matter - Materials Science
Abstract

We report the development of XASdb, a large database of computed reference X-ray absorption spectra (XAS), and a novel Ensemble-Learned Spectra IdEntification (ELSIE) algorithm for the matching of spectra. XASdb currently hosts more than 300,000 K-edge X-ray absorption near-edge spectra (XANES) for over 30,000 materials from the open-science Materials Project database. We discuss a high-throughput automation framework for FEFF calculations, built on robust, rigorously benchmarked parameters. We will demonstrate that the ELSIE algorithm, which combines 33 weak "learners" comprising a set of preprocessing steps and a similarity metric, can achieve up to 84.2% accuracy in identifying the correct oxidation state and coordination environment of a test set of 19 K-edge XANES spectra encompassing a diverse range of chemistries and crystal structures. The XASdb with the ELSIE algorithm has been integrated into a web application in the Materials Project, providing an important new public resource for the analysis of XAS to all materials researchers. Finally, the ELSIE algorithm itself has been made available as part of Veidt, an open source machine learning library for materials science., Comment: 19 Pages, 5 Figures, 1 Table

Published
2017

13. Metal–Ligand Redox in Layered Oxide Cathodes for Li-ion Batteries

Author

Ogley, Matthew J. W., primary, Menon, Ashok S., additional, Pandey, Gaurav, additional, Páez Fajardo, Galo J., additional, Johnston, Beth J., additional, McClelland, Innes, additional, Majherova, Veronika, additional, Huband, Steven, additional, Tripathy, Debashis, additional, Temprano, Israel, additional, Agrestini, Stefano, additional, Celorrio, Veronica, additional, Pérez, Gabriel E., additional, Booth, Samuel G., additional, Grey, Clare P., additional, Cussen, Serena A., additional, and Piper, Louis F. J., additional

Published
2024
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15. Synergistic Degradation Mechanism in Single Crystal Ni-Rich NMC//Graphite Cells

Author

Páez Fajardo, Galo J., primary, Fiamegkou, Eleni, additional, Gott, James A., additional, Wang, Heng, additional, Temprano, Israel, additional, Seymour, Ieuan D., additional, Ogley, Matthew J. W., additional, Menon, Ashok S., additional, Stephens, Ifan E. L., additional, Ans, Muhammad, additional, Lee, Tien-Lin, additional, Thakur, Pardeep K., additional, Dose, Wesley M., additional, De Volder, Michaël F. L., additional, Grey, Clare P., additional, and Piper, Louis F. J., additional

Published
2023
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18. Quantifying electrochemical degradation in single-crystalline LiNi0.8Mn0.1Co0.1O2–graphite pouch cells through operando X-ray and post-mortem investigations

Author

Menon, Ashok S., Shah, Nickil, Gott, James A., Fiamegkou, Eleni, Ogley, Matthew J. W., Paez Fajardo, Galo J., Vaenas, Naoum, Ellis, Ieuan, Ravichandran, Nishitha, Cloetens, Peter, Karpov, Dmitry, Warnett, Jay, Malliband, Paul, Walker, David, West, Geoffrey D., Loveridge, Melanie, Piper, Louis F. J., Menon, Ashok S., Shah, Nickil, Gott, James A., Fiamegkou, Eleni, Ogley, Matthew J. W., Paez Fajardo, Galo J., Vaenas, Naoum, Ellis, Ieuan, Ravichandran, Nishitha, Cloetens, Peter, Karpov, Dmitry, Warnett, Jay, Malliband, Paul, Walker, David, West, Geoffrey D., Loveridge, Melanie, and Piper, Louis F. J.

Abstract

Layered nickel-rich lithium transition metal oxides (LiNixMnyCo1−x−yO2; where x ≥ 0.8), with single-crystalline morphology, are promising future high-energy-density Li-ion battery cathodes due to their ability to mitigate particle-cracking-induced degradation. This is due to the absence of grain boundaries in these materials, which prevents the build-up of bulk crystallographic strain during electrochemical cycling. Compared to their polycrystalline counterparts, there is a need to study single-crystalline Ni-rich cathodes using operando X-ray methods in uncompromised machine-manufactured industry-like full cells to understand their bulk degradation mechanisms as a function of different electrochemical cycling protocols. This can help us identify factors to improve their long-term performance. Here, through in-house operando X-ray studies of pilot-line-built LiNi0.8Mn0.1Co0.1O2–Graphite A7 pouch cells, it is shown that their electrochemical capacity fade under harsh conditions (2.5–4.4 V and 40 °C for 100 cycles at C/3 rate) primarily stems from the high-voltage reconstruction of the cathode surface from a layered to a cubic (rock salt) phase that impedes Li+ kinetics and increases cell impedance. Post-mortem electron and X-ray microscopy show that these cathodes can withstand severe anisotropic structural changes and show no cracking when cycled under such conditions. Comparing these results to those from commercial Li-ion cells with surface-modified single-crystalline Ni-rich cathodes, it is identified that cathode surface passivation can mitigate this type of degradation and prolong cycle life. In addition to furthering our understanding of degradation in single-crystalline Ni-rich cathodes, this work also accentuates the need for practically relevant and reproducible fundamental investigations of Li-ion cells and presents a methodology for achieving this.

Published
2023

21. Synthesis of Li1.20Mn0.432+Nb0.39O2 disordered rock-salt under reducing conditions for Li-ion batteries.

Author

da Silva, Wilgner Lima, Menon, Ashok S., Lees, Martin R., Kashtiban, Reza J., Walker, Marc, Piper, Louis F. J., Kendrick, Emma, and Walton, Richard I.

Subjects
LITHIUM-ion batteries, X-ray powder diffraction, HIGH voltages, MANGANESE alloys
Abstract

A Mn2+-Li-Nb disordered rock-salt oxide cathode is prepared by a solid-state reaction under 5% H2/N2, and its electrochemical property shows a high voltage plateau at 4.8 V, with irreversible structural changes in the 1st cycle due to O redox processes; this is supported by powder X-ray diffraction and ex situ laboratory Mn K-edge XANES data. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Understanding improved capacity retention at 4.3 V in modified single crystal Ni-rich NMC//graphite pouch cells at elevated temperature

Author

Páez Fajardo, Galo J., primary, Belekoukia, Meltiani, additional, Bolloju, Satish, additional, Fiamegkou, Eleni, additional, Menon, Ashok S., additional, Ruff, Zachary, additional, Shen, Zonghao, additional, Shah, Nickil, additional, Björklund, Erik, additional, Zuba, Mateusz Jan, additional, Lee, Tien-Lin, additional, Thakur, Pardeep K., additional, Weatherup, Robert S., additional, Aguadero, Ainara, additional, Loveridge, Melanie J., additional, Grey, Clare P., additional, and Piper, Louis F. J., additional

Published
2023
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24. Probing how Ti- and Nb-substitution affect the stability and improve the electrochemical performance of β- and ε-LiVOPO4

Author

Hidalgo, Marc Francis V., primary, Buyuker, Isik Su, additional, Kamm, Gabrielle E., additional, Zhu, Zhuoying, additional, Grenier, Antonin, additional, Zuba, Mateusz J., additional, Deng, Zhi, additional, Zong, Yanxu, additional, Kaplan, Carol, additional, Chernova, Natasha A., additional, Zhou, Guangwen, additional, Piper, Louis F. J., additional, Ong, Shyue Ping, additional, Chapman, Karena W., additional, and Whittingham, M. S., additional

Published
2023
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32. Spontaneous Lithiation of Binary Oxides during Epitaxial Growth on LiCoO2

Author

Wang, Le, primary, Yang, Zhenzhong, additional, Samarakoon, Widitha S., additional, Zhou, Yadong, additional, Bowden, Mark E., additional, Zhou, Hua, additional, Tao, Jinhui, additional, Zhu, Zihua, additional, Lahiri, Nabajit, additional, Droubay, Timothy C., additional, Lebens-Higgins, Zachary, additional, Yin, Xinmao, additional, Tang, Chi Sin, additional, Feng, Zhenxing, additional, Piper, Louis F. J., additional, Wee, Andrew T. S., additional, Chambers, Scott A., additional, and Du, Yingge, additional

Published
2022
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33. Room-Temperature Electrochemical Fluoride (De)insertion into CsMnFeF6

Author

Andrews, Jessica L., primary, McClure, Eric T., additional, Jew, Kenneth K., additional, Preefer, Molleigh B., additional, Irshad, Ahamed, additional, Lertola, Matthew J., additional, Robertson, Daniel D., additional, Salamat, Charlene Z., additional, Brady, Michael J., additional, Piper, Louis F. J., additional, Tolbert, Sarah H., additional, Nelson Weker, Johanna, additional, Chmelka, Bradley F., additional, Dunn, Bruce S., additional, Narayan, Sri R., additional, West, William C., additional, and Melot, Brent C., additional

Published
2022
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34. Type-II heterostructures of α-V2O5 nanowires interfaced with cadmium chalcogenide quantum dots: Programmable energetic offsets, ultrafast charge transfer, and photocatalytic hydrogen evolution.

Author

Chauhan, Saurabh, Sheng, Aaron, Cho, Junsang, Razek, Sara Abdel, Suwandaratne, Nuwanthi, Sfeir, Matthew Y., Piper, Louis F. J., Banerjee, Sarbajit, and Watson, David F.

Subjects
QUANTUM dots, QUANTUM dot synthesis, HETEROSTRUCTURES, CHARGE transfer, NANOWIRES, X-ray photoelectron spectroscopy
Abstract

We synthesized a new class of heterostructures by depositing CdS, CdSe, or CdTe quantum dots (QDs) onto α-V2O5 nanowires (NWs) via either successive ionic layer adsorption and reaction (SILAR) or linker-assisted assembly (LAA). SILAR yielded the highest loadings of QDs per NW, whereas LAA enabled better control over the size and properties of QDs. Soft and hard x-ray photoelectron spectroscopy in conjunction with density functional theory calculations revealed that all α-V2O5/QD heterostructures exhibited Type-II band offset energetics, with a staggered gap where the conduction- and valence-band edges of α-V2O5 NWs lie at lower energies (relative to the vacuum level) than their QD counterparts. Transient absorption spectroscopy measurements revealed that the Type-II energetic offsets promoted the ultrafast (10−12–10−11 s) separation of photogenerated electrons and holes across the NW/QD interface to yield long-lived (10−6 s) charge-separated states. Charge-transfer dynamics and charge-recombination time scales varied subtly with the composition of heterostructures and the nature of the NW/QD interface, with both charge separation and recombination occurring more rapidly within SILAR-derived heterostructures. LAA-derived α-V2O5/CdSe heterostructures promoted the photocatalytic reduction of aqueous protons to H2 with a 20-fold or greater enhancement relative to isolated colloidal CdSe QDs or dispersed α-V2O5 NWs. The separation of photoexcited electrons and holes across the NW/QD interface could thus be exploited in redox photocatalysis. In light of their programmable compositions and properties and their Type-II energetics that drive ultrafast charge separation, the α-V2O5/QD heterostructures are a promising new class of photocatalyst architectures ripe for continued exploration. [ABSTRACT FROM AUTHOR]

Published
2019
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35. Cooperative effects of strain and electron correlation in epitaxial VO2 and NbO2.

Author

Lee, Wei-Cheng, Wahila, Matthew J., Mukherjee, Shantanu, Singh, Christopher N., Eustance, Tyler, Regoutz, Anna, Paik, H., Boschker, Jos E., Rodolakis, Fanny, Lee, Tien-Lin, Schlom, D. G., and Piper, Louis F. J.

Subjects
ELECTRONIC structure, DENSITY functional theory, ELECTRON configuration, METAL-insulator transitions, RUTILE, EPITAXIAL layers
Abstract

We investigate the electronic structure of epitaxial VO 2 films in the rutile phase using density functional theory combined with the slave-spin method (DFT + SS). In DFT + SS, multi-orbital Hubbard interactions are added to a DFT-fit tight-binding model, and slave spins are used to treat electron correlations. We find that while stretching the system along the rutile c -axis results in a band structure favoring anisotropic orbital fillings, electron correlations favor equal filling of the t 2 g orbitals. These two distinct effects cooperatively induce an orbital-dependent redistribution of the electron occupations and spectral weights, driving strained VO 2 toward an orbital selective Mott transition (OSMT). The simulated single-particle spectral functions are directly compared to V L-edge resonant X-ray photoemission spectroscopy of epitaxial 10 nm VO 2 /TiO 2 (001) and (100) strain orientations. Excellent agreement is observed between the simulations and experimental data regarding the strain-induced evolution of the lower Hubbard band. Simulations of rutile NbO 2 under similar strain conditions are performed, and we predict that an OSMT will not occur in rutile NbO 2. Our prediction is supported by the high-temperature hard x-ray photoelectron spectroscopy measurement on relaxed NbO 2 (110) thin films with no trace of the lower Hubbard band. Our results indicate that electron correlations in VO 2 are important and can be modulated even in the rutile phase before the Peierls instability sets in. [ABSTRACT FROM AUTHOR]

Published
2019
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37. Probing how Ti- and Nb-substitution affect the stability and improve the electrochemical performance of β- and ε-LiVOPO4.

Author

Hidalgo, Marc Francis V., Buyuker, Isik Su, Kamm, Gabrielle E., Zhu, Zhuoying, Grenier, Antonin, Zuba, Mateusz J., Deng, Zhi, Zong, Yanxu, Kaplan, Carol, Chernova, Natasha A., Zhou, Guangwen, Piper, Louis F. J., Ong, Shyue Ping, Chapman, Karena W., and Whittingham, M. S.

Abstract

LiVOPO4 is a promising next-generation multi-electron cathode material, boasting a theoretical capacity of 305 mA h g−1, significantly higher than any commercially used Li-ion battery cathode material. However, the material still faces several limitations, including the difficulty in attaining the full theoretical capacity at higher rates and capacity fade over several cycles. In this paper, we show that Ti- and Nb-substitution can be used to improve the thermal stability and electrochemical performance of LiVOPO4. We show through in situ heating with XRD and a novel gradient heating technique that both Ti- and Nb-substitution cause β-LiVOPO4 to be stabilized relative to ε-LiVOPO4. This is due to transition-metal substitution, which increases the O-vacancy formation energies, pushing the β → ε transition to higher temperatures. We show that it is still possible to synthesize pure-phase ε-LiVOPO4 through the use of high temperatures to generate these O-vacancies. We show that even 1% of Ti- or Nb-substitution can improve the initial capacity and long term cycling capability of LiVOPO4 by improving the high-voltage capacity and reducing the capacity fade in both the high- and low-voltage regions. This is due to the an overall improved Li+ ion diffusion which is caused by an improved charge-transfer resistance during cycling. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Perspectives for next generation lithium-ion battery cathode materials

Author

Booth, Samuel G., primary, Nedoma, Alisyn J., additional, Anthonisamy, Nirmalesh N., additional, Baker, Peter J., additional, Boston, Rebecca, additional, Bronstein, Hugo, additional, Clarke, Simon J., additional, Cussen, Edmund J., additional, Daramalla, Venkateswarlu, additional, De Volder, Michael, additional, Dutton, Siân E., additional, Falkowski, Viktoria, additional, Fleck, Norman A., additional, Geddes, Harry S., additional, Gollapally, Naresh, additional, Goodwin, Andrew L., additional, Griffin, John M., additional, Haworth, Abby R., additional, Hayward, Michael A., additional, Hull, Stephen, additional, Inkson, Beverley J., additional, Johnston, Beth J., additional, Lu, Ziheng, additional, MacManus-Driscoll, Judith L., additional, Martínez De Irujo Labalde, Xabier, additional, McClelland, Innes, additional, McCombie, Kirstie, additional, Murdock, Beth, additional, Nayak, Debasis, additional, Park, Seungkyu, additional, Pérez, Gabriel E., additional, Pickard, Chris J., additional, Piper, Louis F. J., additional, Playford, Helen Y., additional, Price, Simon, additional, Scanlon, David O., additional, Stallard, Joe C., additional, Tapia-Ruiz, Nuria, additional, West, Anthony R., additional, Wheatcroft, Laura, additional, Wilson, Megan, additional, Zhang, Li, additional, Zhi, Xuan, additional, Zhu, Bonan, additional, and Cussen, Serena A., additional

Published
2021
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41. Mechanism of the Resistivity Switching Induced by the Joule Heating in Crystalline NbO2.

Author

Olin, Samuel W., Razek, S. Abdel, Piper, Louis F. J., and Lee, Wei‐Cheng

Subjects
HEAT equation, ELECTRON configuration, ELECTRIC conductivity, BAND gaps, HIGH voltages, RESISTANCE heating
Abstract

Recently, the memristive electrical transport properties in NbO2 have attracted much attention for their promising application to neuromorphic computation. At the center of debate is whether the metal‐to‐insulator transition (MIT) originates from the structural distortion (Peierls) or the electron correlation (Mott). With inputs from experiments and first principles calculations, a thermodynamical model is developed rooted in the scenario of the MIT driven by a 2nd order Peierls instability. It is found that the temperature dependence of the electrical conductivity can be accurately fit by the band gap varying with temperature due to the gradual weakening of the Nb‐Nb dimers. The resistivity switching can consequently be understood by dimer‐free metallic domains induced by local Joule heating. In solving the heat equation, it is found that the steady state cannot be reached if the applied voltage exceeds a threshold, resulting in the chaotic behavior observed in the high voltage and current states. With the Ginzburg–Landau theory and the Joule heating equation, the evolution of the metallic domains under bias voltage can be simulated and directly verified by experiments. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Electrochemical Oxidative Fluorination of an Oxide Perovskite

Author

Bashian, Nicholas H., primary, Zuba, Mateusz, additional, Irshad, Ahamed, additional, Becwar, Shona M., additional, Vinckeviciute, Julija, additional, Rahim, Warda, additional, Griffith, Kent J., additional, McClure, Eric T., additional, Papp, Joseph K., additional, McCloskey, Bryan D., additional, Scanlon, David O., additional, Chmelka, Bradley F., additional, Van der Ven, Anton, additional, Narayan, Sri R., additional, Piper, Louis F. J., additional, and Melot, Brent C., additional

Published
2021
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46. Room-Temperature Electrochemical Fluoride (De)insertion into CsMnFeF6.

Author

Andrews, Jessica L., McClure, Eric T., Jew, Kenneth K., Preefer, Molleigh B., Irshad, Ahamed, Lertola, Matthew J., Robertson, Daniel D., Salamat, Charlene Z., Brady, Michael J., Piper, Louis F. J., Tolbert, Sarah H., Nelson Weker, Johanna, Chmelka, Bradley F., Dunn, Bruce S., Narayan, Sri R., West, William C., and Melot, Brent C.

Published
2022
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48. What is the Role of Nb in Nickel-Rich Layered Oxide Cathodes for Lithium-Ion Batteries?

Author

Xin, Fengxia, primary, Zhou, Hui, additional, Zong, Yanxu, additional, Zuba, Mateusz, additional, Chen, Yan, additional, Chernova, Natasha A., additional, Bai, Jianming, additional, Pei, Ben, additional, Goel, Anshika, additional, Rana, Jatinkumar, additional, Wang, Feng, additional, An, Ke, additional, Piper, Louis F. J., additional, Zhou, Guangwen, additional, and Whittingham, M. Stanley, additional

Published
2021
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50. Whither Mn Oxidation in Mn-Rich Alkali-Excess Cathodes?

Author

Zuba, Mateusz Jan, primary, Grenier, Antonin, additional, Lebens-Higgins, Zachary, additional, Fajardo, Galo J. Paez, additional, Li, Yixuan, additional, Ha, Yang, additional, Zhou, Hui, additional, Whittingham, M. Stanley, additional, Yang, Wanli, additional, Meng, Ying Shirley, additional, Chapman, Karena W., additional, and Piper, Louis F. J., additional

Published
2021
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