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1. Pathways for practical high-energy long-cycling lithium metal batteries

Author

Liu, Jun, Bao, Zhenan, Cui, Yi, Dufek, Eric J, Goodenough, John B, Khalifah, Peter, Li, Qiuyan, Liaw, Bor Yann, Liu, Ping, Manthiram, Arumugam, Meng, Y Shirley, Subramanian, Venkat R, Toney, Michael F, Viswanathan, Vilayanur V, Whittingham, M Stanley, Xiao, Jie, Xu, Wu, Yang, Jihui, Yang, Xiao-Qing, and Zhang, Ji-Guang

Subjects
Affordable and Clean Energy, Electrical and Electronic Engineering, Environmental Engineering
Abstract

State-of-the-art lithium (Li)-ion batteries are approaching their specific energy limits yet are challenged by the ever-increasing demand of today’s energy storage and power applications, especially for electric vehicles. Li metal is considered an ultimate anode material for future high-energy rechargeable batteries when combined with existing or emerging high-capacity cathode materials. However, much current research focuses on the battery materials level, and there have been very few accounts of cell design principles. Here we discuss crucial conditions needed to achieve a specific energy higher than 350 Wh kg −1 , up to 500 Wh kg −1 , for rechargeable Li metal batteries using high-nickel-content lithium nickel manganese cobalt oxides as cathode materials. We also provide an analysis of key factors such as cathode loading, electrolyte amount and Li foil thickness that impact the cell-level cycle life. Furthermore, we identify several important strategies to reduce electrolyte-Li reaction, protect Li surfaces and stabilize anode architectures for long-cycling high-specific-energy cells.

Published
2019

2. Electrically tunable bandgaps for g-ZnO/ZnX (X = S, Se, Te) 2D semiconductor bilayers

Author

Lin, Che-Min, Chang, Chun-Fu, Hsieh, Wan-Chen, Chang, Ching-Wen, Zheng, Yu-yuan, Yeh, Sung-Wei, Su, Chun-Jung, Lin, Yu-Chiao, Yu, Yu-Hsuan, Chen, Chien-Wei, Kei, Chi-Chung, Liao, Chih-Hsiung, Huang, Kung-Shiuh, Huang, Kuan-Tsae, Chen, Di, Chu, Wei-Kan, Tu, Li-Wei, Wadekar, Paritosh V., Leung, Tsan-Chuen, Seo, Hye-Won, Liaw, Bor-Yann, and Chen, Quark Yungsung

Published
2021
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4. List of Contributors

Author

Abada, Sara, primary, Abert, Michael, additional, Barnett, Brian, additional, Brandt, Klaus, additional, Buqa, Hilmi, additional, Dandl, Sonia, additional, Doering, Harry, additional, Feng, Xuning, additional, Fleischhammer, Meike, additional, Forseth, Sissel, additional, Fuentevilla, Daphne A., additional, Garche, Jürgen, additional, Gilljam, Martin, additional, Hendricks, Christopher E., additional, Hoffmann, Detlef, additional, Hollmotz, Lars, additional, Jeevarajan, J.A., additional, Kerchner, George A., additional, Koehler, Uwe, additional, Kurzweil, Peter, additional, Lamp, Peter, additional, Lian, Torleif, additional, Liaw, Bor Yann, additional, Liebau, Verena, additional, Lu, Languang, additional, Lyness, Christopher, additional, Marlair, Guy, additional, McCoy, Christopher H., additional, Ofer, David, additional, Ouyang, Minggao, additional, Petit, Martin, additional, Pettinger, Karl-Heinz, additional, Pinkwart, Karsten, additional, Pozin, Michael, additional, Schultheiß, Jörg, additional, Schweizer-Berberich, Markus, additional, Spek, Erik J., additional, Sriramulu, Suresh, additional, Tübke, Jens, additional, Vie, Preben J.S., additional, Vogt, Johanna, additional, Wang, Cao-Yang, additional, Wang, FuQing, additional, Wei, YiMin, additional, Weydahl, Helge, additional, Wiaux, Jean-Pol, additional, Wicelinski, Steven, additional, Wilhelmy, Jürgen, additional, and Wöhrle, Thomas, additional

Published
2019
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8. Hybridization probe for femtomolar quantification of selected nucleic acid sequences on a disposable electrode

Author

Jenkins, Daniel M., Chami, Bilal, Kreuzer, Matthias, Presting, Germot, Alvarez, Anne M., and Liaw, Bor Yann

Subjects
Coated electrodes -- Electric properties, DNA microarrays -- Analysis, Hybridization -- Analysis, Chemistry
Abstract

Mixed monolayers of electroactive hybridization probes on gold surfaces of a disposable electrode were investigated as a technology for simple, sensitive, selective, and rapid gene identification. Hybridization to the ferrocene-labeled hairpin probes reproducibly diminished cyclic redox currents, presumably due to a displacement of the label from the electrode. Observed peak current densities were roughly 1000x greater than those observed in previous studies, such that results could easily be interpreted without the use of algorithms to correct for background polarization currents. Probes were sensitive to hybridization with a number of oligonucleotide sequences with varying homology, but target oligonucleotides could be distinguished from competing nontarget sequences based on unique 'melting' profiles from the probe. Detection limits were demonstrated down to nearly 100 fM, which may be low enough to identify certain genetic conditions or infections without amplification. This technology has rich potential for use in field devices for gene identification as well as in gene microarrays.

Published
2006

34. Following the Transient Reactions in Lithium–Sulfur Batteries Using an In Situ Nuclear Magnetic Resonance Technique

Author

Xiao, Jie, primary, Hu, Jian Zhi, additional, Chen, Honghao, additional, Vijayakumar, M., additional, Zheng, Jianming, additional, Pan, Huilin, additional, Walter, Eric D., additional, Hu, Mary, additional, Deng, Xuchu, additional, Feng, Ju, additional, Liaw, Bor Yann, additional, Gu, Meng, additional, Deng, Zhiqun Daniel, additional, Lu, Dongping, additional, Xu, Suochang, additional, Wang, Chongmin, additional, and Liu, Jun, additional

Published
2015
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38. Direct Observation of Sulfur Radicals as Reaction Media in Lithium Sulfur Batteries

Author

Wang, Qiang, primary, Zheng, Jianming, additional, Walter, Eric, additional, Pan, Huilin, additional, Lv, Dongping, additional, Zuo, Pengjian, additional, Chen, Honghao, additional, Deng, Z. Daniel, additional, Liaw, Bor Yann, additional, Yu, Xiqian, additional, Yang, Xiaoqing, additional, Zhang, Ji-Guang, additional, Liu, Jun, additional, and Xiao, Jie, additional

Published
2015
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49. Hawaii Energy and Environmental Technologies (HEET) Initiative

Author

HAWAII UNIV HONOLULU SCHOOL OF OCEAN AND EARTH SCIENCE AND TECHNOLOGY, Rocheleau, Richard E., Bethune, Keith, Davies, Kevin, Virji, Maheboob, Antal, Jr, Michael J., Cooney, Michael J., Liaw, Bor Yann, Masutani, Stephen M., HAWAII UNIV HONOLULU SCHOOL OF OCEAN AND EARTH SCIENCE AND TECHNOLOGY, Rocheleau, Richard E., Bethune, Keith, Davies, Kevin, Virji, Maheboob, Antal, Jr, Michael J., Cooney, Michael J., Liaw, Bor Yann, and Masutani, Stephen M.

Abstract

This report covers efforts by the Hawaii Natural Energy Institute of the University of Hawaii under the ONR-funded HEET Initiative that addresses critical technology needs for exploration/utilization of seabed methane hydrates and development/testing of advanced fuel cells and fuel cell systems. Methane hydrates work included: hydrate thermochemistry and kinetics; environmental impacts of methane release from seafloor hydrates; hydrate engineering applications; and international collaborative R&D. For fuel cells accomplishments included: test stand and infrastructure upgrades to the Hawaii Fuel Cell Test Facility; work on understanding the S02 contamination mechanism and S02 contamination recovery; preliminary testing of Protonex H2/air stacks under pure oxygen in support of NUWC; and fuel contamination efforts via a Modelica model which worked with previous experimental results of CO poisoning. Fuel processing and purification work included testing of a reverse-vortex-flow non-thermal plasma reactor to study methane reforming. Further work was also carried out with novel fuel cell concepts including biocarbons and bio-fuel cells.

Published
2010

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