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124 results on '"Jokisaari, Jacob R."'

1. Intercalation of Mg into a Few-Layer Phyllomanganate in Nonaqueous Electrolytes at Room Temperature

Author

Kwon, Bob Jin, Kim, Chunjoong, Jokisaari, Jacob R, Yoo, Hyun Deog, Han, Sang-Don, Kim, Soojeong, Lau, Ka-Cheong, Liao, Chen, Liu, Yi-Sheng, Guo, Jinghua, Key, Baris, Klie, Robert F, and Cabana, Jordi

Subjects
Affordable and Clean Energy, Chemical Sciences, Engineering, Materials
Abstract

The use of oxide cathodes in Mg batteries would unlock a potential energy storage system that delivers high-energy density. However, poor kinetics of Mg diffusion in known solid oxide lattices strongly limits reversible intercalation, which motivates the sustained exploration of new candidates. Herein, nanocrystals of a few-layer phyllomanganate, reminiscent of the mineral vernadite, were shown to have considerable electrochemical activity toward Mg intercalation at room temperature, where it delivered ∼190 mAh g-1 at ∼1.9 V (vs Mg/Mg2+) in batteries paired with a Mg metal anode. Multimodal characterization confirmed the notable degree of reversible intercalation by probing the structural, compositional, and redox changes undertaken by the oxide. Distinct levels of Mg activity were also observed while varying the content of small amounts of lattice water and the temperature of the reaction. The results reaffirm the prospects for operational Mg batteries using oxide cathodes in moderate conditions, overcoming current limits of performance of this prospective technology.

Published
2020

3. A lithiumoxygen battery with a long cycle life in an air-like atmosphere

Author

Asadi, Mohammad, Sayahpour, Baharak, Abbasi, Pedram, Ngo, Anh T., Karis, Klas, Jokisaari, Jacob R., Liu, Cong, Narayanan, Badri, Gerard, Marc, Yasaei, Poya, Hu, Xuan, Mukherjee, Arijita, Lau, Kah Chun, Assary, Rajeev S., Khalili-Araghi, Fatemeh, Klie, Robert F., Curtiss, Larry A., and Salehi-Khojin, Amin

Subjects
Lithium batteries -- Chemical properties, Air -- Chemical properties, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Mohammad Asadi [1, 2]; Baharak Sayahpour [1]; Pedram Abbasi [1]; Anh T. Ngo [3]; Klas Karis [4]; Jacob R. Jokisaari [4]; Cong Liu [5]; Badri Narayanan [3]; Marc Gerard [...]

Published
2018
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6. Domain Dynamics During Ferroelectric Switching

Author

Nelson, Christopher T., Gao, Peng, Jokisaari, Jacob R., Heikes, Colin, Adamo, Carolina, Melville, Alexander, Baek, Seung-Hyub, Folkman, Chad M., Winchester, Benjamin, Gu, Yijia, Liu, Yuanming, Zhang, Kui, Wang, Enge, Li, Jiangyu, Chen, Long-Qing, Eom, Chang-Beom, Schlom, Darrell G., and Pan, Xiaoqing

Published
2011

10. High Capacity for Mg2+ Deintercalation in Spinel Vanadium Oxide Nanocrystals

Author

Hu, Linhua, primary, Jokisaari, Jacob R., additional, Kwon, Bob Jin, additional, Yin, Liang, additional, Kim, Soojeong, additional, Park, Haesun, additional, Lapidus, Saul H., additional, Klie, Robert F., additional, Key, Baris, additional, Zapol, Peter, additional, Ingram, Brian J., additional, Vaughey, John T., additional, and Cabana, Jordi, additional

Published
2020
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12. A Long‐Cycle‐Life Lithium–CO2 Battery with Carbon Neutrality

Author

Ahmadiparidari, Alireza, primary, Warburton, Robert E., additional, Majidi, Leily, additional, Asadi, Mohammad, additional, Chamaani, Amir, additional, Jokisaari, Jacob R., additional, Rastegar, Sina, additional, Hemmat, Zahra, additional, Sayahpour, Baharak, additional, Assary, Rajeev S., additional, Narayanan, Badri, additional, Abbasi, Pedram, additional, Redfern, Paul C., additional, Ngo, Anh, additional, Vörös, Márton, additional, Greeley, Jeffrey, additional, Klie, Robert, additional, Curtiss, Larry A., additional, and Salehi‐Khojin, Amin, additional

Published
2019
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18. Intercalation of Magnesium into a Layered Vanadium Oxide with High Capacity

Author

Yoo, Hyun Deog, primary, Jokisaari, Jacob R., additional, Yu, Young-Sang, additional, Kwon, Bob Jin, additional, Hu, Linhua, additional, Kim, Soojeong, additional, Han, Sang-Don, additional, Lopez, Mario, additional, Lapidus, Saul H., additional, Nolis, Gene M., additional, Ingram, Brian J., additional, Bolotin, Igor, additional, Ahmed, Shabbir, additional, Klie, Robert F., additional, Vaughey, John T., additional, Fister, Timothy T., additional, and Cabana, Jordi, additional

Published
2019
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22. Vibrational spectroscopy of water with high spatial resolution

Author

Oak Ridge National Laboratory (US), Department of Energy (US), National Science Foundation (US), Ministerio de Economía y Competitividad (España), Jokisaari, Jacob R., Hachtel, Jordan A., Hu, Xuan, Mukherjee, Arijita, Wang, Canhui, Konečná, Andrea, Lovejoy, Tracy C., Dellby, Niklas, Aizpurua, Javier, Krivanek, Ondrej L., Idrobo, Juan Carlos, Klie, Robert F., Oak Ridge National Laboratory (US), Department of Energy (US), National Science Foundation (US), Ministerio de Economía y Competitividad (España), Jokisaari, Jacob R., Hachtel, Jordan A., Hu, Xuan, Mukherjee, Arijita, Wang, Canhui, Konečná, Andrea, Lovejoy, Tracy C., Dellby, Niklas, Aizpurua, Javier, Krivanek, Ondrej L., Idrobo, Juan Carlos, and Klie, Robert F.

Abstract

The ability to examine the vibrational spectra of liquids with nanometer spatial resolution will greatly expand the potential to study liquids and liquid interfaces. In fact, the fundamental properties of water, including complexities in its phase diagram, electrochemistry, and bonding due to nanoscale confinement are current research topics. For any liquid, direct investigation of ordered liquid structures, interfacial double layers, and adsorbed species at liquid–solid interfaces are of interest. Here, a novel way of characterizing the vibrational properties of liquid water with high spatial resolution using transmission electron microscopy is reported. By encapsulating water between two sheets of boron nitride, the ability to capture vibrational spectra to quantify the structure of the liquid, its interaction with the liquid‐cell surfaces, and the ability to identify isotopes including H2O and D2O using electron energy‐loss spectroscopy is demonstrated. The electron microscope used here, equipped with a high‐energy‐resolution monochromator, is able to record vibrational spectra of liquids and molecules and is sensitive to surface and bulk morphological properties both at the nano‐ and micrometer scales. These results represent an important milestone for liquid and isotope‐labeled materials characterization with high spatial resolution, combining nanoscale imaging with vibrational spectroscopy.

Published
2018

24. Synthesis and Characterization of Core-Shell Nanocrystals of Co-Rich Cathodes.

Author

Jin Kwon, Bob, Dogan, Fulya, Jokisaari, Jacob R., Key, Baris, Bolotin, Igor L., Paulauskas, Tadas, Chunjoong Kim, Klie, Robert F., and Cabana, Jordi

Subjects
CATHODES, NANOCRYSTALS, ELECTROCHEMICAL electrodes, ANNEALING of metals, LITHIUM-ion batteries, PASSIVATION, ELECTROLYTES
Abstract

Interfacial stability between the cathode and the electrolyte in Li-ion batteries directly determines durability upon cycling. Core-shell nanoscale heterostructures offer high precision when replacing redox-active ions on the surface with inactive species such as Al ions to suppress these deleterious reactions. However, the level of compositional complexity of leading cathodes for high-energy devices, while showing increased stability, remains to be demonstrated for these heterostructures. A combination of colloidal synthesis and subsequent post-annealing process was used to produce cores of LiCo0.5Ni0.25Mn0.25O2, a layered oxide with a high theoretical capacity, with epitaxial and conformal shells with increasing concentration of Al from the interior to surface. Thorough insight at high chemical and spatial resolution was obtained by a combination of characterization techniques. The gradient of Al was controlled by the initial content and the temperature of synthesis. The passivation layers play a critical role in notably increasing the retention of capacity, which was particularly considerable under harsh conditions such as wide potential window and, especially, elevated temperature, which accelerate side reactions. Spectroscopic analysis revealed that the tailored surface layers mainly stabilized the electronic environment at the surface, suggesting a possible explanation to the improved battery performance. [ABSTRACT FROM AUTHOR]

Published
2020
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32. Vibrational Spectroscopy of Water with High Spatial Resolution

Author

Jokisaari, Jacob R., primary, Hachtel, Jordan A., additional, Hu, Xuan, additional, Mukherjee, Arijita, additional, Wang, Canhui, additional, Konecna, Andrea, additional, Lovejoy, Tracy C., additional, Dellby, Niklas, additional, Aizpurua, Javier, additional, Krivanek, Ondrej L., additional, Idrobo, Juan‐Carlos, additional, and Klie, Robert F., additional

Published
2018
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33. Defect-Induced Hedgehog Polarization States in Multiferroics

Author

Li, Linze, primary, Cheng, Xiaoxing, additional, Jokisaari, Jacob R., additional, Gao, Peng, additional, Britson, Jason, additional, Adamo, Carolina, additional, Heikes, Colin, additional, Schlom, Darrell G., additional, Chen, Long-Qing, additional, and Pan, Xiaoqing, additional

Published
2018
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34. A lithium–oxygen battery with a long cycle life in an air-like atmosphere

Author

Asadi, Mohammad, primary, Sayahpour, Baharak, additional, Abbasi, Pedram, additional, Ngo, Anh T., additional, Karis, Klas, additional, Jokisaari, Jacob R., additional, Liu, Cong, additional, Narayanan, Badri, additional, Gerard, Marc, additional, Yasaei, Poya, additional, Hu, Xuan, additional, Mukherjee, Arijita, additional, Lau, Kah Chun, additional, Assary, Rajeev S., additional, Khalili-Araghi, Fatemeh, additional, Klie, Robert F., additional, Curtiss, Larry A., additional, and Salehi-Khojin, Amin, additional

Published
2018
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35. Probing the electrical properties of highly-doped Al:ZnO nanowire ensembles.

Author

Noriega, Rodrigo, Rivnay, Jonathan, Goris, Ludwig, Kälblein, Daniel, Klauk, Hagen, Kern, Klaus, Thompson, Linda M., Palke, Aaron C., Stebbins, Jonathan F., Jokisaari, Jacob R., Kusinski, Greg, and Salleo, Alberto

Subjects
PHYSICS research, SEMICONDUCTOR doping, SEMICONDUCTOR industry, NANOWIRES, QUANTUM dots, OXIDES, NUCLEAR magnetic resonance, FIELD-effect transistors
Abstract

The analysis of transparent conducting oxide nanostructures suffers from a lack of high throughput yet quantitatively sensitive set of analytical techniques that can properly assess their electrical properties and serve both as characterization and diagnosis tools. This is addressed by applying a comprehensive set of characterization techniques to study the electrical properties of solution-grown Al-doped ZnO nanowires as a function of composition from 0 to 4 at. % Al:Zn. Carrier mobility and charge density extracted from sensitive optical absorption measurements are in agreement with those extracted from single-wire field-effect transistor devices. The mobility in undoped nanowires is 28 cm2/V s and decreases to ∼14 cm2/V s at the highest doping density, though the carrier density remains approximately constant (1020 cm-3) due to limited dopant activation or the creation of charge-compensating defects. Additionally, the local geometry of the Al dopant is studied by nuclear magnetic resonance, showing the occupation of a variety of dopant sites. [ABSTRACT FROM AUTHOR]

Published
2010
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41. Effect of Passivating Shells on the Chemistry and Electrode Properties of LiMn2O4Nanocrystal Heterostructures

Author

Kwon, Bob Jin, Dogan, Fulya, Jokisaari, Jacob R., Key, Baris, Kim, Chunjoong, Liu, Yi-Sheng, Guo, Jinghua, Klie, Robert F., and Cabana, Jordi

Abstract

Building a stable chemical environment at the cathode/electrolyte interface is directly linked to the durability of Li-ion batteries with high energy density. Recently, colloidal chemistry methods have enabled the design of core–shell nanocrystals of Li1+xMn2–xO4, an important battery cathode, with passivating shells rich in Al3+through a colloidal synthetic route. These heterostructures combine the presence of redox-inactive ions on the surface to minimize undesired reactions, with the coverage of each individual particle in an epitaxial manner. Although they improve electrode performance, the exact chemistry and structure of the shell as well as the precise effect of the ratio between the shell and the active core remain to be elucidated. Correlation of these parameters to electrode properties would serve to tailor the heterostructure design toward complete shutdown of undesired reactions. These knowledge gaps are the target of this study. Li1+xMn2–xO4nanocrystals with Al3+-rich shells of different thicknesses were synthesized. Multimodal characterization comprehensively revealed the elemental distribution, electronic state, and crystallinity in the heterostructures, which confirmed the potential of this approach to finely tune passivating layers. All of the modified nanocrystals improved the capacity retention while retaining charge storage compared to the bare counterpart, even under harsh conditions.

Published
2019
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44. Water-Free Titania-Bronze Thin Films with Superfast Lithium-Ion Transport

Author

Zhang, Kui, primary, Katz, Michael B., additional, Li, Baihai, additional, Kim, Sung Joo, additional, Du, Xianfeng, additional, Hao, Xiaoguang, additional, Jokisaari, Jacob R., additional, Zhang, Shuyi, additional, Graham, George W., additional, Van der Ven, Anton, additional, Bartlett, Bart M., additional, and Pan, Xiaoqing, additional

Published
2014
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45. Ferroelastic domain switching dynamics under electrical and mechanical excitations

Author

Gao, Peng, primary, Britson, Jason, additional, Nelson, Christopher T., additional, Jokisaari, Jacob R., additional, Duan, Chen, additional, Trassin, Morgan, additional, Baek, Seung-Hyub, additional, Guo, Hua, additional, Li, Linze, additional, Wang, Yiran, additional, Chu, Ying-Hao, additional, Minor, Andrew M., additional, Eom, Chang-Beom, additional, Ramesh, Ramamoorthy, additional, Chen, Long-Qing, additional, and Pan, Xiaoqing, additional

Published
2014
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48. Polarization-Dependent Raman Spectroscopy of Epitaxial TiO2(B) Thin Films.

Author

Jokisaari, Jacob R., Bayerl, Dylan, Kui Zhang, Lin Xie, Yuefeng Nie, Schlom, Darrell G., Kioupakis, Emmanouil, Graham, George W., and Xiaoqing Pan

Subjects
*TITANIUM dioxide films, *POLARIZATION spectroscopy, *EPITAXY, *RAMAN spectroscopy, *POLYMORPHISM (Crystallography), *THIN films
Abstract

The bronze polymorph of titanium dioxide, known as TiO2(B), has promising photochemical and electronic properties for potential applications in Li-ion batteries, photocatalysis, chemical sensing, and solar cells. In contrast to previous studies performed with powder samples, which often suffer from impurities and lattice water, here we report Raman spectra from highly crystalline TiO2(B) films epitaxially grown on Si substrates with a thin SrTiO3 buffer layer. The reduced background from the Si substrate significantly benefits acquisition of polarization-dependent Raman spectra collected from the high-quality thin films, which are compared to nanopowder results reported in the literature. The experimental spectra were compared with density functional theory calculations to analyze the atomic displacements associated with each Raman-active vibrational mode. These results provide a standard reference for further investigation of the crystallinity, structure, composition, and properties of TiO2(B) materials with Raman spectroscopy. [ABSTRACT FROM AUTHOR]

Published
2015
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49. Direct Observations of Retention Failure in Ferroelectric Memories

Author

Gao, Peng, primary, Nelson, Christopher T., additional, Jokisaari, Jacob R., additional, Zhang, Yi, additional, Baek, Seung‐Hyub, additional, Bark, Chung Wung, additional, Wang, Enge, additional, Liu, Yuanming, additional, Li, Jiangyu, additional, Eom, Chang‐Beom, additional, and Pan, Xiaoqing, additional

Published
2012
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