Year |
Citation |
Score |
2024 |
Cao D, Zhang Y, Ji T, Zhao X, Cakmak E, Ozcan S, Geiwitz M, Bilheux J, Xu K, Wang Y, Burch KS, Tu QH, Zhu H. Li Dynamics in Mixed Ionic-Electronic Conducting Interlayer of All-Solid-State Li-metal Batteries. Nano Letters. PMID 38270095 DOI: 10.1021/acs.nanolett.3c04072 |
0.39 |
|
2023 |
Liu J, Xie J, Dong H, Li FL, Xu K, Li Y, Miao X, Yang J, Geng H. Metal-injection and interface density engineering induced nickel diselenide with rapid kinetics for high-energy sodium storage. Journal of Colloid and Interface Science. 657: 402-413. PMID 38056045 DOI: 10.1016/j.jcis.2023.12.011 |
0.355 |
|
2023 |
Xu K, Xie J, Dong H, Sun C, Li Y, Guo J, Wang Z, Yang J, Geng H. Structural regulation enabled stable hollow molybdenum diselenide nanosheet anode for ultrahigh energy density sodium ion pouch cell. Journal of Colloid and Interface Science. 656: 241-251. PMID 37992530 DOI: 10.1016/j.jcis.2023.11.105 |
0.403 |
|
2023 |
Tao L, Russell JA, Xia D, Ma B, Hwang S, Yang Z, Hu A, Zhang Y, Sittisomwong P, Yu D, Deck PA, Madsen LA, Huang H, Xiong H, Bai P, ... Xu K, et al. Reversible Switch in Charge Storage Enabled by Selective Ion Transport in Solid Electrolyte Interphase. Journal of the American Chemical Society. PMID 37466049 DOI: 10.1021/jacs.3c03429 |
0.396 |
|
2023 |
Liu Q, Jiang W, Xu J, Xu Y, Yang Z, Yoo DJ, Pupek KZ, Wang C, Liu C, Xu K, Zhang Z. A fluorinated cation introduces new interphasial chemistries to enable high-voltage lithium metal batteries. Nature Communications. 14: 3678. PMID 37344449 DOI: 10.1038/s41467-023-38229-7 |
0.399 |
|
2023 |
Huang W, Qiu J, Ji Y, Zhao W, Dong Z, Yang K, Yang M, Chen Q, Zhang M, Lin C, Xu K, Yang L, Pan F. Exploiting Cation Intercalating Chemistry to Catalyze Conversion-Type Reactions in Batteries. Acs Nano. PMID 36895079 DOI: 10.1021/acsnano.2c11029 |
0.337 |
|
2023 |
Xu J, Zhang J, Pollard TP, Li Q, Tan S, Hou S, Wan H, Chen F, He H, Hu E, Xu K, Yang XQ, Borodin O, Wang C. Electrolyte design for Li-ion batteries under extreme operating conditions. Nature. PMID 36755091 DOI: 10.1038/s41586-022-05627-8 |
0.436 |
|
2022 |
Meng YS, Srinivasan V, Xu K. Designing better electrolytes. Science (New York, N.Y.). 378: eabq3750. PMID 36480630 DOI: 10.1126/science.abq3750 |
0.385 |
|
2022 |
Tan S, Kim JM, Corrao A, Ghose S, Zhong H, Rui N, Wang X, Senanayake S, Polzin BJ, Khalifah P, Xiao J, Liu J, Xu K, Yang XQ, Cao X, et al. Unravelling the convoluted and dynamic interphasial mechanisms on Li metal anodes. Nature Nanotechnology. PMID 36471109 DOI: 10.1038/s41565-022-01273-3 |
0.402 |
|
2022 |
Zou P, Lin R, Pollard TP, Yao L, Hu E, Zhang R, He Y, Wang C, West WC, Ma L, Borodin O, Xu K, Yang XQ, Xin HL. Localized Hydrophobicity in Aqueous Zinc Electrolytes Improves Zinc Metal Reversibility. Nano Letters. PMID 36070490 DOI: 10.1021/acs.nanolett.2c02514 |
0.316 |
|
2022 |
Wahyudi W, Guo X, Ladelta V, Tsetseris L, Nugraha MI, Lin Y, Tung V, Hadjichristidis N, Li Q, Xu K, Ming J, Anthopoulos TD. Hitherto Unknown Solvent and Anion Pairs in Solvation Structures Reveal New Insights into High-Performance Lithium-Ion Batteries. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). e2202405. PMID 35975430 DOI: 10.1002/advs.202202405 |
0.328 |
|
2022 |
Lin R, He Y, Wang C, Zou P, Hu E, Yang XQ, Xu K, Xin HL. Characterization of the structure and chemistry of the solid-electrolyte interface by cryo-EM leads to high-performance solid-state Li-metal batteries. Nature Nanotechnology. PMID 35773425 DOI: 10.1038/s41565-022-01148-7 |
0.429 |
|
2022 |
Baniya A, Gurung A, Pokharel J, Chen K, Pathak R, Lamsal BS, Ghimire N, Bobba RS, Rahman SI, Mabrouk S, Smirnova AL, Xu K, Qiao Q. Mitigating Interfacial Mismatch between Lithium Metal and Garnet-Type Solid Electrolyte by Depositing Metal Nitride Lithiophilic Interlayer. Acs Applied Energy Materials. 5: 648-657. PMID 35098044 DOI: 10.1021/acsaem.1c03157 |
0.372 |
|
2022 |
Xu C, Jiang Y, Xu K, Chen Z, Chang W, Cen N, Ni J, Xu R, Huang Y, Abulaiti P, Tuohetimaiti A, Lai C, Peng C. Actualizing a High-Energy Bipolar-Stacked Solid-State Battery with Low-Cost Mechanically Robust Nylon Mesh-Reinforced Composite Polymer Electrolyte Membranes. Acs Applied Materials & Interfaces. PMID 35000387 DOI: 10.1021/acsami.1c20480 |
0.322 |
|
2021 |
Hou X, Pollard TP, Zhao W, He X, Ju X, Wang J, Du L, Paillard E, Lin H, Xu K, Borodin O, Winter M, Li J. Simultaneous Formation of Interphases on both Positive and Negative Electrodes in High-Voltage Aqueous Lithium-Ion Batteries. Small (Weinheim An Der Bergstrasse, Germany). e2104986. PMID 34850544 DOI: 10.1002/smll.202104986 |
0.434 |
|
2021 |
Yang C, Wu Q, Xie W, Zhang X, Brozena A, Zheng J, Garaga MN, Ko BH, Mao Y, He S, Gao Y, Wang P, Tyagi M, Jiao F, Briber R, ... ... Xu K, et al. Copper-coordinated cellulose ion conductors for solid-state batteries. Nature. 598: 590-596. PMID 34671167 DOI: 10.1038/s41586-021-03885-6 |
0.396 |
|
2021 |
Song Y, Yang L, Li J, Zhang M, Wang Y, Li S, Chen S, Yang K, Xu K, Pan F. Synergistic Dissociation-and-Trapping Effect to Promote Li-Ion Conduction in Polymer Electrolytes via Oxygen Vacancies. Small (Weinheim An Der Bergstrasse, Germany). e2102039. PMID 34528374 DOI: 10.1002/smll.202102039 |
0.402 |
|
2021 |
Li J, Hou X, Wang R, He X, Pollard TP, Ju X, Du L, Paillard E, Frielinghaus H, Barnsley LC, Borodin O, Xu K, Winter M. Stabilizing the solid-electrolyte interphase with polyacrylamide for high-voltage aqueous lithium-ion batteries. Angewandte Chemie (International Ed. in English). PMID 34379346 DOI: 10.1002/anie.202107252 |
0.38 |
|
2021 |
Wu H, Gao P, Jia H, Zou L, Zhang L, Cao X, Engelhard MH, Bowden ME, Ding MS, Hu J, Hu D, Burton SD, Xu K, Wang C, Zhang JG, et al. A Polymer-in-Salt Electrolyte with Enhanced Oxidative Stability for Lithium Metal Polymer Batteries. Acs Applied Materials & Interfaces. PMID 34170663 DOI: 10.1021/acsami.1c04637 |
0.329 |
|
2021 |
Zhao H, Qian Y, Hu S, Luo G, Nie C, Qiu P, Kang Y, Wang H, Chu Y, Wang Q, Wang J, Shao H, Xu K, Deng Y. Tale of Three Phosphate Additives for Stabilizing NCM811/Graphite Pouch Cells: Significance of Molecular Structure-Reactivity in Dictating Interphases and Cell Performance. Acs Applied Materials & Interfaces. PMID 34138532 DOI: 10.1021/acsami.1c06890 |
0.369 |
|
2021 |
Han B, Zou Y, Zhang Z, Yang X, Shi X, Meng H, Wang H, Xu K, Deng Y, Gu M. Probing the Na metal solid electrolyte interphase via cryo-transmission electron microscopy. Nature Communications. 12: 3066. PMID 34031418 DOI: 10.1038/s41467-021-23368-6 |
0.355 |
|
2021 |
Tan S, Rodrigo UND, Shadike Z, Lucht B, Xu K, Wang C, Yang XQ, Hu E. Novel Low-Temperature Electrolyte Using Isoxazole as the Main Solvent for Lithium-Ion Batteries. Acs Applied Materials & Interfaces. PMID 34010556 DOI: 10.1021/acsami.1c05894 |
0.432 |
|
2021 |
Cao L, Li D, Pollard T, Deng T, Zhang B, Yang C, Chen L, Vatamanu J, Hu E, Hourwitz MJ, Ma L, Ding M, Li Q, Hou S, Gaskell K, ... ... Xu K, et al. Fluorinated interphase enables reversible aqueous zinc battery chemistries. Nature Nanotechnology. PMID 33972758 DOI: 10.1038/s41565-021-00905-4 |
0.372 |
|
2021 |
Han B, Zhang Z, Zou Y, Xu K, Xu G, Wang H, Meng H, Deng Y, Li J, Gu M. Poor Stability of Li CO in the Solid Electrolyte Interphase of a Lithium-Metal Anode Revealed by Cryo-Electron Microscopy. Advanced Materials (Deerfield Beach, Fla.). e2100404. PMID 33899278 DOI: 10.1002/adma.202100404 |
0.34 |
|
2021 |
Wang H, Kim SC, Rojas T, Zhu Y, Li Y, Ma L, Xu K, Ngo AT, Cui Y. Correlating Li-Ion Solvation Structures and Electrode Potential Temperature Coefficients. Journal of the American Chemical Society. PMID 33506677 DOI: 10.1021/jacs.0c10587 |
0.459 |
|
2020 |
Han B, Xu D, Chi SS, He D, Zhang Z, Du L, Gu M, Wang C, Meng H, Xu K, Zheng Z, Deng Y. 500 Wh kg Class Li Metal Battery Enabled by a Self-Organized Core-Shell Composite Anode. Advanced Materials (Deerfield Beach, Fla.). e2004793. PMID 32930460 DOI: 10.1002/Adma.202004793 |
0.441 |
|
2020 |
Steinrueck HG, Cao C, Lukatskaya M, Takacs C, Wan G, Mackanic D, Tsao Y, Zhao J, Helms B, Xu K, Borodin O, Wishart JF, Toney M. Interfacial Speciation Determines Interfacial Chemistry: X-ray-Induced Lithium Fluoride Formation from Water-in-salt Electrolytes on Solid Surfaces. Angewandte Chemie (International Ed. in English). PMID 32881197 DOI: 10.1002/Anie.202007745 |
0.423 |
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2020 |
Gonzalez MA, Borodin O, Kofu M, Shibata K, Yamada T, Yamamuro O, Xu K, Price DL, Saboungi ML. Nanoscale Relaxation in "Water-in-Salt" and "Water-in-Bisalt" Electrolytes. The Journal of Physical Chemistry Letters. PMID 32787289 DOI: 10.1021/Acs.Jpclett.0C01765 |
0.436 |
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2020 |
Yang L, Yang K, Zheng J, Xu K, Amine K, Pan F. Harnessing the surface structure to enable high-performance cathode materials for lithium-ion batteries. Chemical Society Reviews. PMID 32567623 DOI: 10.1039/D0Cs00137F |
0.424 |
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2020 |
Han KS, Yu Z, Wang H, Redfern PC, Ma L, Cheng L, Chen Y, Hu JZ, Curtiss LA, Xu K, Murugesan V, Mueller KT. Origin of Unusual Acidity and Li Diffusivity in a Series of Water-in-Salt Electrolytes. The Journal of Physical Chemistry. B. PMID 32484675 DOI: 10.1021/Acs.Jpcb.0C02483 |
0.391 |
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2020 |
Yin Y, Arca E, Wang L, Yang G, Schnabel M, Cao L, Xiao C, Zhou H, Liu P, Nanda J, Teeter G, Eichhorn BW, Xu K, Burrell AK, Ban C. Non-Passivated Silicon Anode Surface. Acs Applied Materials & Interfaces. PMID 32412232 DOI: 10.1021/Acsami.0C03799 |
0.403 |
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2020 |
Han B, Feng D, Li S, Zhang Z, Zou Y, Gu M, Meng H, Wang C, Xu K, Zhao Y, Zeng H, Wang C, Deng Y. Self-Regulated Phenomenon of Inorganic Artificial SEI for Lithium Metal Batteries. Nano Letters. PMID 32343592 DOI: 10.1021/Acs.Nanolett.0C01400 |
0.399 |
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2020 |
Zou Z, Li Y, Lu Z, Wang D, Cui Y, Guo B, Li Y, Liang X, Feng J, Li H, Nan CW, Armand M, Chen L, Xu K, Shi S. Mobile Ions in Composite Solids. Chemical Reviews. PMID 32267697 DOI: 10.1021/Acs.Chemrev.9B00760 |
0.472 |
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2020 |
Qian Y, Kang Y, Hu S, Shi Q, Chen Q, Tang X, Xiao Y, Zhao H, Luo G, Xu K, Deng Y. Mechanism Study of Unsaturated Tripropargyl Phosphate as an Efficient Electrolyte Additive Forming Multifunctional Interphases in Lithium Ion and Lithium Metal Batteries. Acs Applied Materials & Interfaces. PMID 32040291 DOI: 10.1021/Acsami.9B21605 |
0.534 |
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2020 |
Li M, Wang C, Chen Z, Xu K, Lu J. New Concepts in Electrolytes. Chemical Reviews. PMID 32022546 DOI: 10.1021/Acs.Chemrev.9B00531 |
0.429 |
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2020 |
Zhou Y, Su M, Yu X, Zhang Y, Wang JG, Ren X, Cao R, Xu W, Baer DR, Du Y, Borodin O, Wang Y, Wang XL, Xu K, Xu Z, et al. Real-time mass spectrometric characterization of the solid-electrolyte interphase of a lithium-ion battery. Nature Nanotechnology. PMID 31988500 DOI: 10.1038/S41565-019-0618-4 |
0.453 |
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2020 |
Pathak R, Chen K, Gurung A, Reza KM, Bahrami B, Pokharel J, Baniya A, He W, Wu F, Zhou Y, Xu K, Qiao QQ. Fluorinated hybrid solid-electrolyte-interphase for dendrite-free lithium deposition. Nature Communications. 11: 93. PMID 31900398 DOI: 10.1038/S41467-019-13774-2 |
0.515 |
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2020 |
Ma L, Schroeder MA, Borodin O, Pollard TP, Ding MS, Wang C, Xu K. Realizing high zinc reversibility in rechargeable batteries Nature Energy. 1-7. DOI: 10.1038/S41560-020-0674-X |
0.401 |
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2020 |
Zhang S, Pollard TP, Feng X, Borodin O, Xu K, Li Z. Altering the Electrochemical Pathway of Sulfur Chemistry with Oxygen for High Energy Density and Low Shuttling in a Na/S Battery Acs Energy Letters. 5: 1070-1076. DOI: 10.1021/Acsenergylett.9B02746 |
0.371 |
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2020 |
Chen L, Zhang J, Li Q, Vatamanu J, Ji X, Pollard TP, Cui C, Hou S, Chen J, Yang C, Ma L, Ding MS, Garaga M, Greenbaum S, Lee H, ... ... Xu K, et al. A 63 m Superconcentrated Aqueous Electrolyte for High-Energy Li-Ion Batteries Acs Energy Letters. 5: 968-974. DOI: 10.1021/Acsenergylett.0C00348 |
0.497 |
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2020 |
Wang L, Lin Y, DeCarlo S, Wang Y, Leung K, Qi Y, Xu K, Wang C, Eichhorn BW. Compositions and Formation Mechanisms of Solid-Electrolyte Interphase on Microporous Carbon/Sulfur Cathodes Chemistry of Materials. 32: 3765-3775. DOI: 10.1021/Acs.Chemmater.9B05027 |
0.409 |
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2020 |
Zhang Q, Liu S, Lin Z, Wang K, Chen M, Xu K, Li W. Highly safe and cyclable Li-metal batteries with vinylethylene carbonate electrolyte Nano Energy. 74: 104860. DOI: 10.1016/J.Nanoen.2020.104860 |
0.497 |
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2020 |
Cresce A, Eidson N, Schroeder M, Ma L, Howarth Y, Yang C, Ho J, Dillon R, Ding M, Bassett A, Stanzione J, Tom R, Soundappan T, Wang C, Xu K. Gel electrolyte for a 4V flexible aqueous lithium-ion battery Journal of Power Sources. 469: 228378. DOI: 10.1016/J.Jpowsour.2020.228378 |
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2020 |
Borodin O, Self J, Persson KA, Wang C, Xu K. Uncharted Waters: Super-Concentrated Electrolytes Joule. 4: 69-100. DOI: 10.1016/J.Joule.2019.12.007 |
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2020 |
Liu M, Xing L, Xu K, Zhou H, Lan J, Wang C, Li W. Deciphering the Paradox between the Co-intercalation of Sodium-Solvent into Graphite and its irreversible Capacity Energy Storage Materials. 26: 32-39. DOI: 10.1016/J.Ensm.2019.12.026 |
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2020 |
Xiao Y, Han B, Zeng Y, Chi S, Zeng X, Zheng Z, Xu K, Deng Y. New Lithium Salt Forms Interphases Suppressing Both Li Dendrite and Polysulfide Shuttling Advanced Energy Materials. 10: 1903937. DOI: 10.1002/Aenm.201903937 |
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2020 |
Chen J, Vatamanu J, Xing L, Borodin O, Chen H, Guan X, Liu X, Xu K, Li W. Improving Electrochemical Stability and Low‐Temperature Performance with Water/Acetonitrile Hybrid Electrolytes Advanced Energy Materials. 10: 1902654. DOI: 10.1002/Aenm.201902654 |
0.355 |
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2020 |
Gurung A, Reza KM, Mabrouk S, Bahrami B, Pathak R, Lamsal BS, Rahman SI, Ghimire N, Bobba RS, Chen K, Pokharel J, Baniya A, Laskar AR, Liang M, Zhang W, ... ... Xu K, et al. Rear‐Illuminated Perovskite Photorechargeable Lithium Battery Advanced Functional Materials. 30: 2001865. DOI: 10.1002/Adfm.202001865 |
0.482 |
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2019 |
Sun P, Bai P, Chen Z, Su H, Yang J, Xu K, Xu Y. A Lithium-Organic Primary Battery. Small (Weinheim An Der Bergstrasse, Germany). e1906462. PMID 31867886 DOI: 10.1002/Smll.201906462 |
0.455 |
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2019 |
Jiang L, Liu L, Yue J, Zhang Q, Zhou A, Borodin O, Suo L, Li H, Chen L, Xu K, Hu YS. High-Voltage Aqueous Na-Ion Battery Enabled by Inert-Cation-Assisted Water-in-Salt Electrolyte. Advanced Materials (Deerfield Beach, Fla.). e1904427. PMID 31782981 DOI: 10.1002/Adma.201904427 |
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2019 |
Guo R, Che Y, Lan G, Lan J, Li J, Xing L, Xu K, Fan W, Yu L, Li W. Tailoring Low Temperature Performance of Lithium-ion Battery via Rational Designing Interphase on Anode. Acs Applied Materials & Interfaces. PMID 31553154 DOI: 10.1021/Acsami.9B12020 |
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2019 |
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0.435 |
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2019 |
Wang L, Menakath A, Han F, Wang Y, Zavalij PY, Gaskell KJ, Borodin O, Iuga D, Brown SP, Wang C, Xu K, Eichhorn BW. Identifying the components of the solid-electrolyte interphase in Li-ion batteries. Nature Chemistry. PMID 31427766 DOI: 10.1038/S41557-019-0304-Z |
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2019 |
Wang C, Xing L, Vatamanu J, Chen Z, Lan G, Li W, Xu K. Overlooked electrolyte destabilization by manganese (II) in lithium-ion batteries. Nature Communications. 10: 3423. PMID 31366890 DOI: 10.1038/S41467-019-11439-8 |
0.487 |
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2019 |
Wang K, Xing L, Xu K, Zhou H, Li W. Understanding and Suppressing the Destructive Cobalt (Ⅱ) Species in Graphite Interphase. Acs Applied Materials & Interfaces. PMID 31364838 DOI: 10.1021/Acsami.9B08949 |
0.374 |
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2019 |
Lan J, Zheng Q, Zhou H, Li J, Xing L, Xu K, Fan W, Yu L, Li W. Stabilizing High Voltage Lithium-Rich Layered Oxide Cathode with a Novel Electrolyte Additive. Acs Applied Materials & Interfaces. PMID 31313905 DOI: 10.1021/Acsami.9B07441 |
0.46 |
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2019 |
Yang C, Chen J, Ji X, Pollard TP, Lü X, Sun CJ, Hou S, Liu Q, Liu C, Qing T, Wang Y, Borodin O, Ren Y, Xu K, Wang C. Author Correction: Aqueous Li-ion battery enabled by halogen conversion-intercalation chemistry in graphite. Nature. PMID 31164722 DOI: 10.1038/S41586-019-1281-5 |
0.406 |
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2019 |
Zhang Q, Wang K, Wang X, Zhong Y, Liu M, Liu X, Xu K, Fan W, Yu L, Li W. Lithium Bis(oxalate)borate Reinforces Interphase on Li Metal Anode. Acs Applied Materials & Interfaces. PMID 31117455 DOI: 10.1021/Acsami.9B04898 |
0.533 |
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2019 |
Yang C, Chen J, Ji X, Pollard TP, Lü X, Sun CJ, Hou S, Liu Q, Liu C, Qing T, Wang Y, Borodin O, Ren Y, Xu K, Wang C. Aqueous Li-ion battery enabled by halogen conversion-intercalation chemistry in graphite. Nature. 569: 245-250. PMID 31068723 DOI: 10.1038/S41586-019-1175-6 |
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2019 |
Wu S, Lin Y, Xing L, Sun G, Zhou H, Xu K, Fan W, Yu L, Li W. Stabilizing LiCoO2/graphite at High Voltage with Electrolyte Additive. Acs Applied Materials & Interfaces. PMID 30990302 DOI: 10.1021/Acsami.9B01053 |
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Li C, Kan WH, Xie H, Jiang Y, Zhao Z, Zhu C, Xia Y, Zhang J, Xu K, Mu D, Wu F. Inducing Favorable Cation Antisite by Doping Halogen in Ni-Rich Layered Cathode with Ultrahigh Stability. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). 6: 1801406. PMID 30828526 DOI: 10.1002/Advs.201801406 |
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McCloskey BD, Xu K. Current Trends in Electrolytes The Electrochemical Society Interface. 28: 47-47. DOI: 10.1149/2.F03192If |
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2019 |
Wang C, Meng YS, Xu K. Perspective—Fluorinating Interphases Journal of the Electrochemical Society. 166. DOI: 10.1149/2.0281903Jes |
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2019 |
Alvarado J, Schroeder MA, Pollard TP, Wang X, Lee JZ, Zhang M, Wynn T, Ding M, Borodin O, Meng YS, Xu K. Bisalt ether electrolytes: a pathway towards lithium metal batteries with Ni-rich cathodes Energy and Environmental Science. 12: 780-794. DOI: 10.1039/C8Ee02601G |
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Xu K. Diffusionless charge transfer Nature Energy. 4: 93-94. DOI: 10.1038/S41560-019-0328-Z |
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Lee JZ, Wynn TA, Schroeder MA, Alvarado J, Wang X, Xu K, Meng YS. Cryogenic Focused Ion Beam Characterization of Lithium Metal Anodes Acs Energy Letters. 4: 489-493. DOI: 10.1021/Acsenergylett.8B02381 |
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2019 |
Lin Z, Li J, Huang Q, Xu K, Fan W, Yu L, Xia Q, Li W. Insights into the Interfacial Instability between Carbon-Coated SiO Anode and Electrolyte in Lithium-Ion Batteries Journal of Physical Chemistry C. 12902. DOI: 10.1021/Acs.Jpcc.9B02509 |
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2019 |
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Liu Q, Cresce A, Schroeder M, Xu K, Mu D, Wu B, Shi L, Wu F. Insight on lithium metal anode interphasial chemistry: Reduction mechanism of cyclic ether solvent and SEI film formation Energy Storage Materials. 17: 366-373. DOI: 10.1016/J.Ensm.2018.09.024 |
0.52 |
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2019 |
Wang H, Huang Y, Huang C, Wang X, Wang K, Chen H, Liu S, Wu Y, Xu K, Li W. Reclaiming graphite from spent lithium ion batteries ecologically and economically Electrochimica Acta. 313: 423-431. DOI: 10.1016/J.Electacta.2019.05.050 |
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2019 |
Wu H, Xu Y, Ren X, Liu B, Engelhard MH, Ding MS, El‐Khoury PZ, Zhang L, Li Q, Xu K, Wang C, Zhang J, Xu W. Polymer‐in‐“Quasi‐Ionic Liquid” Electrolytes for High‐Voltage Lithium Metal Batteries Advanced Energy Materials. 9: 1902108. DOI: 10.1002/Aenm.201902108 |
0.398 |
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2019 |
Li C, Kan WH, Xie H, Jiang Y, Zhao Z, Zhu C, Xia Y, Zhang J, Xu K, Mu D, Wu F. Lithium-Ion Batteries: Inducing Favorable Cation Antisite by Doping Halogen in Ni-Rich Layered Cathode with Ultrahigh Stability (Adv. Sci. 4/2019) Advanced Science. 6: 1970021. DOI: 10.1002/Advs.201970021 |
0.459 |
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2018 |
Winter M, Barnett B, Xu K. Before Li Ion Batteries. Chemical Reviews. PMID 30500179 DOI: 10.1021/Acs.Chemrev.8B00422 |
0.526 |
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2018 |
Liu T, Lin L, Bi X, Tian L, Yang K, Liu J, Li M, Chen Z, Lu J, Amine K, Xu K, Pan F. In situ quantification of interphasial chemistry in Li-ion battery. Nature Nanotechnology. PMID 30420761 DOI: 10.1038/S41565-018-0284-Y |
0.521 |
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2018 |
Fan X, Chen L, Borodin O, Ji X, Chen J, Hou S, Deng T, Zheng J, Yang C, Liou SC, Amine K, Xu K, Wang C. Author Correction: Non-flammable electrolyte enables Li-metal batteries with aggressive cathode chemistries. Nature Nanotechnology. PMID 30287944 DOI: 10.1038/S41565-018-0293-X |
0.338 |
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2018 |
Fu C, Oviedo MB, Zhu Y, von Wald Cresce A, Xu K, Li G, Itkis ME, Haddon RC, Chi M, Han Y, Wong BM, Guo J. Confined Lithium-Sulfur Reactions in Narrow-Diameter Carbon Nanotubes Reveal Enhanced Electrochemical Reactivity. Acs Nano. PMID 30247879 DOI: 10.1021/Acsnano.7B08778 |
0.465 |
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2018 |
Wang F, Sun W, Shadikez Z, Hu E, Ji X, Gao T, Yang XQ, Xu K, Wang C. How Water Accelerates Bivalent Ion Diffusion. Angewandte Chemie (International Ed. in English). PMID 30063278 DOI: 10.1002/Anie.201806748 |
0.498 |
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2011 |
Cresce Av, Xu K. Electrolyte Additive in Support of 5 V Li Ion Chemistry Journal of the Electrochemical Society. 158. DOI: 10.1149/1.3532047 |
0.481 |
|
2011 |
Xu K, Cresce Av. Interfacing electrolytes with electrodes in Li ion batteries Journal of Materials Chemistry. 21: 9849-9864. DOI: 10.1039/C0Jm04309E |
0.506 |
|
2011 |
Xu W, Xu K, Viswanathan VV, Towne SA, Hardy JS, Xiao J, Nie Z, Hu D, Wang D, Zhang J. Reaction mechanisms for the limited reversibility of Li–O2 chemistry in organic carbonate electrolytes Journal of Power Sources. 196: 9631-9639. DOI: 10.1016/J.Jpowsour.2011.06.099 |
0.452 |
|
2011 |
Zhang SS, Xu K, Read J. A non-aqueous electrolyte for the operation of Li/air battery in ambient environment Journal of Power Sources. 196: 3906-3910. DOI: 10.1016/J.Jpowsour.2010.12.092 |
0.457 |
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2010 |
Xu K, Cresce Av, Lee U. Differentiating contributions to "ion transfer" barrier from interphasial resistance and Li+ desolvation at electrolyte/graphite interface. Langmuir. 26: 11538-11543. PMID 20446717 DOI: 10.1021/La1009994 |
0.447 |
|
2010 |
Xu K. Electrolytes and interphasial chemistry in Li ion devices Energies. 3: 135-154. DOI: 10.3390/En3010135 |
0.495 |
|
2009 |
Xu K. Whether EC and PC differ in interphasial chemistry on graphitic anode and how Journal of the Electrochemical Society. 156. DOI: 10.1149/1.3166182 |
0.491 |
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2008 |
Xu K, Deveney B, Nechev K, Lam Y, Jow TR. Evaluating LiBOB/Lactone Electrolytes in Large-Format Lithium-Ion Cells Based on Nickelate and Iron Phosphate Journal of the Electrochemical Society. 155. DOI: 10.1149/1.2990708 |
0.475 |
|
2008 |
Xu K. Tailoring electrolyte composition for LiBOB Journal of the Electrochemical Society. 155. DOI: 10.1149/1.2961055 |
0.521 |
|
2007 |
Xu K. Erratum: “Charge-Transfer” Process at Graphite/Electrolyte Interface and the Solvation Sheath Structure of Li + in Nonaqueous Electrolytes [ J. Electrochem. Soc. , 154 , A162 (2007) ] Journal of the Electrochemical Society. 154. DOI: 10.1149/1.2536554 |
0.385 |
|
2007 |
Xu K. "Charge-transfer" process at graphite/electrolyte interface and the solvation sheath structure of Li+in nonaqueous electrolytes Journal of the Electrochemical Society. 154. DOI: 10.1149/1.2409866 |
0.497 |
|
2007 |
Xu K, Lam Y, Zhang SS, Jow aTR, Curtis TB. Solvation sheath of Li+ in nonaqueous electrolytes and its implication of graphite/ electrolyte interface chemistry Journal of Physical Chemistry C. 111: 7411-7421. DOI: 10.1021/Jp068691U |
0.449 |
|
2006 |
Xu K, Zhuang GV, Allen JL, Lee U, Zhang SS, Ross PN, Jow TR. Syntheses and characterization of lithium alkyl mono- and dicarbonates as components of surface films in Li-ion batteries. The Journal of Physical Chemistry. B. 110: 7708-19. PMID 16610865 DOI: 10.1021/Jp0601522 |
0.487 |
|
2006 |
Zhuang GV, Yang H, Ross PN, Xu K, Jow TR. Lithium methyl carbonate as a reaction product of metallic lithium and dimethyl carbonate Electrochemical and Solid-State Letters. 9: A64-A68. DOI: 10.1149/1.2142157 |
0.369 |
|
2006 |
Zhang SS, Xu K, Jow TR. Charge and discharge characteristics of a commercial LiCoO2-based 18650 Li-ion battery Journal of Power Sources. 160: 1403-1409. DOI: 10.1016/J.Jpowsour.2006.03.037 |
0.371 |
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2006 |
Zhang SS, Xu K, Jow TR. Study of the charging process of a LiCoO2-based Li-ion battery Journal of Power Sources. 160: 1349-1354. DOI: 10.1016/J.Jpowsour.2006.02.087 |
0.479 |
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2006 |
Zhang SS, Xu K, Jow TR. An improved electrolyte for the LiFePO4 cathode working in a wide temperature range Journal of Power Sources. 159: 702-707. DOI: 10.1016/J.Jpowsour.2005.11.042 |
0.398 |
|
2006 |
Zhang SS, Xu K, Jow TR. Enhanced performance of Li-ion cell with LiBF4-PC based electrolyte by addition of small amount of LiBOB Journal of Power Sources. 156: 629-633. DOI: 10.1016/J.Jpowsour.2005.04.023 |
0.505 |
|
2006 |
Zhang SS, Xu K, Jow TR. LiBOB-based gel electrolyte Li-ion battery for high temperature operation Journal of Power Sources. 154: 276-280. DOI: 10.1016/J.Jpowsour.2005.03.196 |
0.549 |
|
2006 |
Zhang SS, Xu K, Jow TR. EIS study on the formation of solid electrolyte interface in Li-ion battery Electrochimica Acta. 51: 1636-1640. DOI: 10.1016/J.Electacta.2005.02.137 |
0.461 |
|
2005 |
Zhuang GV, Xu K, Yang H, Jow TR, Ross PN. Lithium ethylene dicarbonate identified as the primary product of chemical and electrochemical reduction of EC in 1.2 M LiPF6/EC:EMC electrolyte. The Journal of Physical Chemistry. B. 109: 17567-73. PMID 16853247 DOI: 10.1021/Jp052474W |
0.381 |
|
2005 |
Xu K. Nonaqueous liquid electrolytes for lithium-based rechargeable batteries. Chemical Reviews. 104: 4303-417. PMID 15669157 DOI: 10.1021/cr030203g |
0.323 |
|
2005 |
Xu K, Zhang S, Jow TR. LiBOB as Additive in LiPF6-Based Lithium Ion Electrolytes Electrochemical and Solid State Letters. 8. DOI: 10.1149/1.1924930 |
0.493 |
|
2005 |
Zhang SS, Ervin MH, Xu K, Jow TR. Li-ion battery with poly(acrylonitrile-methyl methacrylate)-based microporous gel electrolyte Solid State Ionics. 176: 41-46. DOI: 10.1016/J.Ssi.2004.05.024 |
0.481 |
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2005 |
Xu K, Zhang SS, Lee U, Allen JL, Jow TR. LiBOB: Is it an alternative salt for lithium ion chemistry? Journal of Power Sources. 146: 79-85. DOI: 10.1016/J.Jpowsour.2005.03.153 |
0.503 |
|
2005 |
Zhang SS, Allen JL, Xu K, Jow TR. Optimization of reaction condition for solid-state synthesis of LiFePO4-C composite cathodes Journal of Power Sources. 147: 234-240. DOI: 10.1016/J.Jpowsour.2005.01.004 |
0.348 |
|
2005 |
Xu K, Zhang S, Jow R. Electrochemical impedance study of graphite/electrolyte interface formed in LiBOB/PC electrolyte Journal of Power Sources. 143: 197-202. DOI: 10.1016/J.Jpowsour.2004.11.026 |
0.514 |
|
2005 |
Zhang SS, Xu K, Jow TR. An inorganic composite membrane as the separator of Li-ion batteries Journal of Power Sources. 140: 361-364. DOI: 10.1016/J.Jpowsour.2004.07.034 |
0.452 |
|
2005 |
Zhang SS, Ervin MH, Foster DL, Xu K, Jow TR. Fabrication and evaluation of a polymer Li-ion battery with microporous gel electrolyte Journal of Solid State Electrochemistry. 9: 77-82. DOI: 10.1007/S10008-004-0569-Y |
0.506 |
|
2004 |
Lee U, Xu K, Zhang SS, Richard T. Profiling of Anode Surface Cycled in LiBOB-based Electrolyte of Li Ion Batteries Mrs Proceedings. 835. DOI: 10.1557/Proc-835-K6.10 |
0.496 |
|
2004 |
Xu K, Lee U, Zhang SS, Jow TR. Graphite/Electrolyte Interface Formed in LiBOB-Based Electrolytes II. Potential Dependence of Surface Chemistry on Graphitic Anodes Journal of the Electrochemical Society. 151. DOI: 10.1149/1.1812732 |
0.391 |
|
2004 |
Jow TR, Xu K, Ding MS, Zhang SS, Allen JL, Amine K. LiBOB-Based Electrolytes for Li-Ion Batteries for Transportation Applications Journal of the Electrochemical Society. 151. DOI: 10.1149/1.1789393 |
0.526 |
|
2004 |
Xu K, Lee U, Zhang S, Allen JL, Jow TR. Graphite/electrolyte interface formed in LiBoB-based electrolytes. I. Differentiating the roles of EC and LiBOB in SEI formation Electrochemical and Solid State Letters. 7. DOI: 10.1149/1.1774973 |
0.457 |
|
2004 |
Zhuang GV, Xu K, Jow TR, Ross PN. Study of SEI layer formed on graphite anodes in PC/LiBOB electrolyte using IR spectroscopy Electrochemical and Solid-State Letters. 7: A224-A227. DOI: 10.1149/1.1756855 |
0.398 |
|
2004 |
Xu K. Nonaqueous liquid electrolytes for lithium-based rechargeable batteries Chemical Reviews. 104: 4303-4417. DOI: 10.1021/Cr030203G |
0.511 |
|
2004 |
Ding MS, Xu K, Zheng JP, Jow TR. γ-Butyrolactone-acetonitrile solution of triethylmethylammonium tetrafluoroborate as an electrolyte for double-layer capacitors Journal of Power Sources. 138: 340-350. DOI: 10.1016/J.Jpowsour.2004.06.039 |
0.398 |
|
2004 |
Zhang SS, Xu K, Jow TR. Evaluation on a water-based binder for the graphite anode of Li-ion batteries Journal of Power Sources. 138: 226-231. DOI: 10.1016/J.Jpowsour.2004.05.056 |
0.483 |
|
2004 |
Zhang SS, Xu K, Jow TR. Optimization of the forming conditions of the solid-state interface in the Li-ion batteries Journal of Power Sources. 130: 281-285. DOI: 10.1016/J.Jpowsour.2003.12.012 |
0.471 |
|
2004 |
Zhang SS, Xu K, Jow TR. Enhanced performance of natural graphite in Li-ion battery by oxalatoborate coating Journal of Power Sources. 129: 275-279. DOI: 10.1016/J.Jpowsour.2003.10.012 |
0.466 |
|
2004 |
Zhang SS, Xu K, Foster DL, Ervin MH, Jow TR. Microporous gel electrolyte Li-ion battery Journal of Power Sources. 125: 114-118. DOI: 10.1016/J.Jpowsour.2003.07.008 |
0.498 |
|
2004 |
Zhang SS, Ervin MH, Xu K, Jow TR. Microporous poly(acrylonitrile-methyl methacrylate) membrane as a separator of rechargeable lithium battery Electrochimica Acta. 49: 3339-3345. DOI: 10.1016/J.Electacta.2004.02.045 |
0.39 |
|
2004 |
Zhang SS, Xu K, Jow TR. Electrochemical impedance study on the low temperature of Li-ion batteries Electrochimica Acta. 49: 1057-1061. DOI: 10.1016/J.Electacta.2003.10.016 |
0.489 |
|
2003 |
Ding MS, Xu K, Jow TR. Conductivity and Viscosity of PC-DEC and PC-EC Solutions of LiBOB Journal of the Electrochemical Society. 152. DOI: 10.1149/1.1833611 |
0.318 |
|
2003 |
Xu K, Lee U, Zhang S, Wood M, Jow TR. Chemical Analysis of Graphite/Electrolyte Interface Formed in LiBOB-Based Electrolytes Electrochemical and Solid State Letters. 6. DOI: 10.1149/1.1576049 |
0.505 |
|
2003 |
Xu K, Zhang S, Jow TR. Formation of the graphite/electrolyte interface by lithium bis(oxalato)borate Electrochemical and Solid State Letters. 6. DOI: 10.1149/1.1568173 |
0.476 |
|
2003 |
Xu K, Zhang S, Allen JL, Jow TR. Evaluation of Fluorinated Alkyl Phosphates as Flame Retardants in Electrolytes for Li-Ion Batteries: II. Performance in Cell Journal of the Electrochemical Society. 150. DOI: 10.1149/1.1533041 |
0.489 |
|
2003 |
Xu K, Ding MS, Zhang S, Allen JL, Jow TR. Evaluation of Fluorinated Alkyl Phosphates as Flame Retardants in Electrolytes for Li-Ion Batteries: I. Physical and Electrochemical Properties Journal of the Electrochemical Society. 150. DOI: 10.1149/1.1533040 |
0.531 |
|
2003 |
Zhang SS, Xu K, Jow TR. Poly(acrylonitrile-methyl methacrylate) as a non-fluorinated binder for the graphite anode of Li-ion batteries Journal of Applied Electrochemistry. 33: 1099-1101. DOI: 10.1023/A:1026225001109 |
0.518 |
|
2003 |
Jow TR, Ding MS, Xu K, Zhang SS, Allen JL, Amine K, Henriksen GL. Nonaqueous electrolytes for wide-temperature-range operation of Li-ion cells Journal of Power Sources. 119: 343-348. DOI: 10.1016/S0378-7753(03)00153-8 |
0.519 |
|
2003 |
Zhang SS, Xu K, Jow TR. The low temperature performance of Li-ion batteries Journal of Power Sources. 115: 137-140. DOI: 10.1016/S0378-7753(02)00618-3 |
0.498 |
|
2003 |
Zhang SS, Xu K, Jow TR. Tris(2,2,2-trifluoroethyl) phosphite as a co-solvent for nonflammable electrolytes in Li-ion batteries Journal of Power Sources. 113: 166-172. DOI: 10.1016/S0378-7753(02)00537-2 |
0.564 |
|
2003 |
Zhang SS, Xu K, Jow TR. Li-ion cell with poly(acrylonitrile-methyl methacrylate)-based gel polymer electrolyte Solid State Ionics. 158: 375-380. DOI: 10.1016/S0167-2738(02)00914-1 |
0.494 |
|
2003 |
Zhang SS, Xu K, Jow TR. Effect of Li2CO3-coating on the performance of natural graphite in Li-ion battery Electrochemistry Communications. 5: 979-982. DOI: 10.1016/J.Elecom.2003.09.014 |
0.452 |
|
2003 |
Zhang SS, Xu K, Jow TR. Alkaline composite film as a separator for rechargeable lithium batteries Journal of Solid State Electrochemistry. 7: 492-496. DOI: 10.1007/S10008-003-0375-Y |
0.385 |
|
2003 |
Zhang S, Xu K, Jow T. Low-temperature performance of Li-ion cells with a LiBF4-based electrolyte Journal of Solid State Electrochemistry. 7: 147-151. DOI: 10.1007/S10008-002-0300-9 |
0.474 |
|
2002 |
Allen JL, Xu K, Zhang SS, Jow TR. LiMBO 3 (M=Fe, Mn): Potential Cathode for Lithium Ion Batteries Mrs Proceedings. 730. DOI: 10.1557/Proc-730-V1.8 |
0.422 |
|
2002 |
Zhang SS, Xu K, Jow TR. Understanding Formation of Solid Electrolyte Interface Film on LiMn 2 O 4 Electrode Journal of the Electrochemical Society. 149. DOI: 10.1149/1.1516220 |
0.418 |
|
2002 |
Ding MS, Xu K, Jow TR. Effects of Tris(2,2,2-trifluoroethyl) Phosphate as a Flame-Retarding Cosolvent on Physicochemical Properties of Electrolytes of LiPF6 in EC-PC-EMC of 3:3:4 Weight Ratios Journal of the Electrochemical Society. 149. DOI: 10.1149/1.1513556 |
0.378 |
|
2002 |
Xu K, Zhang S, Poese BA, Jow TR. Lithium Bis(oxalato)borate Stabilizes Graphite Anode in Propylene Carbonate Electrochemical and Solid State Letters. 5. DOI: 10.1149/1.1510322 |
0.51 |
|
2002 |
Zhang SS, Xu K, Jow TR. A thermal stabilizer for LiPF6-based electrolytes of Li-ion cells Electrochemical and Solid-State Letters. 5. DOI: 10.1149/1.1499669 |
0.513 |
|
2002 |
Xu K, Angell CA. Sulfone-Based Electrolytes for Lithium-Ion Batteries [Journal of The Electrochemical Society, 149, A920 (2002)] Journal of the Electrochemical Society. 149. DOI: 10.1149/1.1496104 |
0.625 |
|
2002 |
Xu K, Zhang S, Allen JL, Jow TR. Nonflammable electrolytes for Li-ion batteries based on a fluorinated phosphate Journal of the Electrochemical Society. 149. DOI: 10.1149/1.1490356 |
0.533 |
|
2002 |
Xu K, Angell CA. Sulfone-based electrolytes for lithium-ion batteries Journal of the Electrochemical Society. 149: A920-A926. DOI: 10.1149/1.1483866 |
0.684 |
|
2002 |
Xu K, Ding MS, Zhang S, Allen JL, Jow TR. An Attempt to Formulate Nonflammable Lithium Ion Electrolytes with Alkyl Phosphates and Phosphazenes Journal of the Electrochemical Society. 149. DOI: 10.1149/1.1467946 |
0.517 |
|
2002 |
Zhang SS, Xu K, Jow TR. Study of LiBF4 as an electrolyte salt for a Li-ion battery Journal of the Electrochemical Society. 149. DOI: 10.1149/1.1466857 |
0.56 |
|
2002 |
Zhang SS, Xu K, Jow TR. Formation of Solid Electrolyte Interface in Lithium Nickel Mixed Oxide Electrodes during the First Cycling Electrochemical and Solid State Letters. 5. DOI: 10.1149/1.1464506 |
0.434 |
|
2002 |
Xu K, Zhang S, Jow TR, Xu W, Angell CA. LiBOB as salt for lithium-ion batteries. A possible solution for high temperature operation Electrochemical and Solid-State Letters. 5: A26-A29. DOI: 10.1149/1.1426042 |
0.666 |
|
2002 |
Zhang SS, Xu K, Jow TR. A new approach toward improved low temperature performance of Li-ion battery Electrochemistry Communications. 4: 928-932. DOI: 10.1016/S1388-2481(02)00490-3 |
0.519 |
|
2002 |
Zhang SS, Xu K, Allen JL, Jow TR. Effect of propylene carbonate on the low temperature performance of Li-ion cells Journal of Power Sources. 110: 216-221. DOI: 10.1016/S0378-7753(02)00272-0 |
0.504 |
|
2002 |
Zhang SS, Xu K, Jow TR. Low temperature performance of graphite electrode in Li-ion cells Electrochimica Acta. 48: 241-246. DOI: 10.1016/S0013-4686(02)00620-5 |
0.441 |
|
2001 |
Zhang S, Ding MS, Xu K, Allen J, Jow TR. Understanding Solid Electrolyte Interface Film Formation on Graphite Electrodes Electrochemical and Solid State Letters. 4. DOI: 10.1149/1.1414946 |
0.37 |
|
2001 |
Ding MS, Xu K, Zhang SS, Amine K, Henriksen GL, Jow TR. Change of Conductivity with Salt Content, Solvent Composition, and Temperature for Electrolytes of LiPF[sub 6] in Ethylene Carbonate-Ethyl Methyl Carbonate Journal of the Electrochemical Society. 148: A1196. DOI: 10.1149/1.1403730 |
0.397 |
|
2001 |
Ding MS, Xu K, Zhang S, Jow TR. Liquid/Solid Phase Diagrams of Binary Carbonates for Lithium Batteries Part II Journal of the Electrochemical Society. 148. DOI: 10.1149/1.1353568 |
0.335 |
|
2001 |
Xu K, Ding MS, Jow TR. Quaternary Onium Salts as Nonaqueous Electrolytes for Electrochemical Capacitors Journal of the Electrochemical Society. 148. DOI: 10.1149/1.1350665 |
0.433 |
|
2001 |
Xu K, Ding MS, Jow TR. A better quantification of electrochemical stability limits for electrolytes in double layer capacitors Electrochimica Acta. 46: 1823-1827. DOI: 10.1016/S0013-4686(01)00358-9 |
0.428 |
|
2000 |
Ding MS, Xu K, Jow TR. Liquid‐Solid Phase Diagrams of Binary Carbonates for Lithium Batteries Journal of the Electrochemical Society. 147: 1688-1694. DOI: 10.1149/1.1393419 |
0.348 |
|
2000 |
Xu K, Angell CA. Effect of N-substituents on protonation chemistry of trichlorophosphazenes Inorganica Chimica Acta. 298: 16-23. DOI: 10.1016/S0020-1693(99)00385-0 |
0.461 |
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2000 |
Zhang S, Chang Z, Xu K, Angell CA. Molecular and anionic polymer and oligomer systems with microdecoupled conductivities Electrochimica Acta. 45: 1229-1236. DOI: 10.1016/S0013-4686(99)00385-0 |
0.593 |
|
1999 |
Xu K, Ding SP, Jow TR. Toward Reliable Values of Electrochemical Stability Limits for Electrolytes Journal of the Electrochemical Society. 146: 4172-4178. DOI: 10.1149/1.1392609 |
0.444 |
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1999 |
Ding SP, Xu K, Zhang SS, Jow TR, Amine K, Henriksen GL. Diminution of Supercooling of Electrolytes by Carbon Particles Journal of the Electrochemical Society. 146: 3974-3980. DOI: 10.1149/1.1392579 |
0.411 |
|
1999 |
Green JL, Ito K, Xu K, Angell CA. Fragility in Liquids and Polymers: New, Simple Quantifications and Interpretations Journal of Physical Chemistry B. 103: 3991-3996. DOI: 10.1021/Jp983927I |
0.503 |
|
1999 |
Xu K, Day ND, Angell CA. A new protonation chemistry of phosphazenes and the formation of bis(sulfonyl)imides Inorganic Chemistry Communications. 2: 261-264. DOI: 10.1016/S1387-7003(99)00060-X |
0.492 |
|
1998 |
Xu K, Angell C. High Anodic Stability of a New Electrolyte Solvent: Unsymmetric Noncyclic Aliphatic Sulfone Journal of the Electrochemical Society. 145. DOI: 10.1149/1.1838419 |
0.461 |
|
1996 |
Xu K, Zhang S, Angell C. Room Temperature Inorganic “Quasi‐Molten Salts” as Alkali‐Metal Electrolytes Journal of the Electrochemical Society. 143: 3548-3554. DOI: 10.1149/1.1837251 |
0.479 |
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1996 |
Xu K, Day ND, Angell C. Inorganic Electrolyte Solutions and Gels for Rechargeable Lithium Batteries Journal of the Electrochemical Society. 143. DOI: 10.1149/1.1837089 |
0.444 |
|
1996 |
Angell CA, Xu K, Zhang SS, Videa M. Variations on the salt-polymer electrolyte theme for flexible solid electrolytes Solid State Ionics. 86: 17-28. DOI: 10.1016/0167-2738(96)00088-4 |
0.715 |
|
1995 |
Xu K, Angell CA. Synthesis and characterization of lithium sulfonates as components of molten salt electrolytes Electrochimica Acta. 40: 2401-2403. DOI: 10.1016/0013-4686(95)00203-Q |
0.456 |
|
1994 |
Xu K, Angell C. Non-crystallizing molten salt and ionic rubber electrolytes with wide electrochemical windows Mrs Proceedings. 369: 505-510. DOI: 10.1557/Proc-369-505 |
0.359 |
|
1994 |
Angell C, Fan J, Liu C, Lu Q, Sanchez E, Xu K. Li-conducting ionic rubbers for lithium battery and other applications Solid State Ionics. 69: 343-353. DOI: 10.1016/0167-2738(94)90422-7 |
0.457 |
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