참고문헌 (37)

1. Liu, Jun, Zhang, Ji‐Guang, Yang, Zhenguo, Lemmon, John P., Imhoff, Carl, Graff, Gordon L., Li, Liyu, Hu, Jianzhi, Wang, Chongmin, Xiao, Jie, Xia, Gordon, Viswanathan, Vilayanur V., Baskaran, Suresh, Sprenkle, Vincent, Li, Xiaolin, Shao, Yuyan, Schwenzer, Birgit. Materials Science and Materials Chemistry for Large Scale Electrochemical Energy Storage: From Transportation to Electrical Grid. Advanced functional materials, vol.23, no.8, 929-946.

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2. Li, Wangda, Song, Bohang, Manthiram, Arumugam. High-voltage positive electrode materials for lithium-ion batteries. Chemical Society reviews, vol.46, no.10, 3006-3059.

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3. Ellis, Brian L., Lee, Kyu Tae, Nazar, Linda F.. Positive Electrode Materials for Li-Ion and Li-Batteries^†. Chemistry of materials : a publication of the American Chemical Society, vol.22, no.3, 691-714.

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4. Ye, Jing, Li, Yi-xuan, Zhang, Li, Zhang, Xue-ping, Han, Min, He, Ping, Zhou, Hao-shen. Fabrication and Performance of High Energy Li-Ion Battery Based on the Spherical Li[Li_0.2Ni_0.16Co_0.1Mn_0.54]O₂ Cathode and Si Anode. ACS applied materials & interfaces, vol.8, no.1, 208-214.

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5. Li, Xiang, Qiao, Yu, Guo, Shaohua, Xu, Zhenming, Zhu, Hong, Zhang, Xiaoyu, Yuan, Yang, He, Ping, Ishida, Masayoshi, Zhou, Haoshen. Direct Visualization of the Reversible O²⁻/O⁻ Redox Process in Li‐Rich Cathode Materials. Advanced materials, vol.30, no.14, 1705197-.

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6. Muhammad, Shoaib, Kim, Hyunchul, Kim, Yunok, Kim, Donghwi, Song, Jay Hyok, Yoon, Jaegu, Park, Jin-Hwan, Ahn, Sung-Jin, Kang, Sun-Ho, Thackeray, Michael M., Yoon, Won-Sub. Evidence of reversible oxygen participation in anomalously high capacity Li- and Mn-rich cathodes for Li-ion batteries. Nano energy, vol.21, 172-184.

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7. Sathiya, M., Abakumov, A. M., Foix, D., Rousse, G., Ramesha, K., Saubanère, M., Doublet, M. L., Vezin, H., Laisa, C. P., Prakash, A. S., Gonbeau, D., VanTendeloo, G., Tarascon, J-M.. Origin of voltage decay in high-capacity layered oxide electrodes. Nature materials, vol.14, no.2, 230-238.

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8. Jarvis, Karalee, Wang, Chih-Chieh, Varela, Maria, Unocic, Raymond R., Manthiram, Arumugam, Ferreira, Paulo J.. Surface Reconstruction in Li-Rich Layered Oxides of Li-Ion Batteries. Chemistry of materials : a publication of the American Chemical Society, vol.29, no.18, 7668-7674.

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9. Evans, Tyler, Piper, Daniela Molina, Sun, Huaxing, Porcelli, Timothy, Kim, Seul Cham, Han, Sang Sub, Choi, Yong Seok, Tian, Chixia, Nordlund, Dennis, Doeff, Marca M., Ban, Chunmei, Cho, Sung‐Jin, Oh, Kyu Hwan, Lee, Se‐Hee. In Situ Engineering of the Electrode–Electrolyte Interface for Stabilized Overlithiated Cathodes. Advanced materials, vol.29, no.10, 1604549-.

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10. Lee, HyeJin, Lim, Suk Bum, Kim, Jin Young, Jeong, Mihee, Park, Yong Joon, Yoon, Won-Sub. Characterization and Control of Irreversible Reaction in Li-Rich Cathode during the Initial Charge Process. ACS applied materials & interfaces, vol.10, no.13, 10804-10818.

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11. Kleiner, Karin, Strehle, Benjamin, Baker, Annabelle R., Day, Sarah J., Tang, Chiu C., Buchberger, Irmgard, Chesneau, Frederick-Francois, Gasteiger, Hubert A., Piana, Michele. Origin of High Capacity and Poor Cycling Stability of Li-Rich Layered Oxides: A Long-Duration in Situ Synchrotron Powder Diffraction Study. Chemistry of materials : a publication of the American Chemical Society, vol.30, no.11, 3656-3667.

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12. Xu, Bo, Fell, Christopher R., Chi, Miaofang, Meng, Ying Shirley. Identifying surface structural changes in layered Li-excess nickel manganese oxides in high voltage lithium ion batteries: A joint experimental and theoretical study. Energy & environmental science, vol.4, no.6, 2223-2233.

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13. Muhammad, Shoaib, Lee, Sangwoo, Kim, Hyunchul, Yoon, Jeongbae, Jang, Donghyuk, Yoon, Jaegu, Park, Jin-Hwan, Yoon, Won-Sub. Deciphering the thermal behavior of lithium rich cathode material by in situ X-ray diffraction technique. Journal of power sources, vol.285, 156-160.

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14. Genevois, Cécile, Koga, Hideyuki, Croguennec, Laurence, Ménétrier, Michel, Delmas, Claude, Weill, François. Insight into the Atomic Structure of Cycled Lithium-Rich Layered Oxide Li_1.20Mn_0.54Co_0.13Ni_0.13O₂ Using HAADF STEM and Electron Nanodiffraction. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.119, no.1, 75-83.

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15. Han, Jung-Gu, Lee, Sung Jun, Lee, Jaegi, Kim, Jeom-Soo, Lee, Kyu Tae, Choi, Nam-Soon. Tunable and Robust Phosphite-Derived Surface Film to Protect Lithium-Rich Cathodes in Lithium-Ion Batteries. ACS applied materials & interfaces, vol.7, no.15, 8319-8329.

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16. Ates, Mehmet Nurullah, Jia, Qingying, Shah, Ankita, Busnaina, Ahmed, Mukerjee, Sanjeev, Abraham, K. M.. Mitigation of Layered to Spinel Conversion of a Li-Rich Layered Metal Oxide Cathode Material for Li-Ion Batteries. Journal of the Electrochemical Society : JES, vol.161, no.3, A290-A301.

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17. Qing, Ren‐Peng, Shi, Ji‐Lei, Xiao, Dong‐Dong, Zhang, Xu‐Dong, Yin, Ya‐Xia, Zhai, Yun‐Bo, Gu, Lin, Guo, Yu‐Guo. Enhancing the Kinetics of Li‐Rich Cathode Materials through the Pinning Effects of Gradient Surface Na⁺ Doping. Advanced energy materials, vol.6, no.6, 1501914-.

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18. Chen, Song, Chen, Zhuo, Xia, Min, Cao, Chuanbao, Luo, Yunjun. Toward Alleviating Voltage Decay by Sodium Substitution in Lithium-Rich Manganese-Based Oxide Cathodes. ACS applied energy materials, vol.1, no.8, 4065-4074.

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19. Nayak, Prasant Kumar, Grinblat, Judith, Levi, Elena, Levi, Mikhael, Markovsky, Boris, Aurbach, Doron. Understanding the influence of Mg doping for the stabilization of capacity and higher discharge voltage of Li- and Mn-rich cathodes for Li-ion batteries. Physical chemistry chemical physics : PCCP, vol.19, no.8, 6142-6152.

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20. Choi, Aram, Lim, Jungwoo, Kim, Hyung‐Jin, Jung, Sung Chul, Lim, Hyung‐Woo, Kim, Hanseul, Kwon, Mi‐Sook, Han, Young Kyu, Oh, Seung M., Lee, Kyu Tae. Site‐Selective In Situ Electrochemical Doping for Mn‐Rich Layered Oxide Cathode Materials in Lithium‐Ion Batteries. Advanced energy materials, vol.8, no.11, 1702514-.

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21. Zhao, J., Wang, Z., Guo, H., Li, X., He, Z., Li, T.. Synthesis and electrochemical characterization of Zn-doped Li-rich layered Li[Li_0.2Mn_0.54Ni_0.13Co_0.13]O₂ cathode material. Ceramics international, vol.41, no.9, 11396-11401.

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22. Sathiya, M., Rousse, G., Ramesha, K., Laisa, C. P., Vezin, H., Sougrati, M. T., Doublet, M-L., Foix, D., Gonbeau, D., Walker, W., Prakash, A. S., Ben Hassine, M., Dupont, L., Tarascon, J-M.. Reversible anionic redox chemistry in high-capacity layered-oxide electrodes. Nature materials, vol.12, no.9, 827-835.

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23. Wang, Yongqing, Yang, Zhenzhong, Qian, Yumin, Gu, Lin, Zhou, Haoshen. New Insights into Improving Rate Performance of Lithium‐Rich Cathode Material. Advanced materials, vol.27, no.26, 3915-3920.

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24. Qiao, Qi-Qi, Qin, Lei, Li, Guo-Ran, Wang, Yong-Long, Gao, Xue-Ping. Sn-stabilized Li-rich layered Li(Li_0.17Ni_0.25Mn_0.58)O₂ oxide as a cathode for advanced lithium-ion batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.3, no.34, 17627-17634.

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25. Wang, Chih-Chieh, Manthiram, Arumugam. Influence of cationic substitutions on the first charge and reversible capacities of lithium-rich layered oxide cathodes. Journal of materials chemistry. A, Materials for energy and sustainability, vol.1, no.35, 10209-.

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26. Tabuchi, M., Nabeshima, Y., Takeuchi, T., Kageyama, H., Imaizumi, J., Shibuya, H., Akimoto, J.. Synthesis of high-capacity Ti- and/or Fe-substituted Li₂MnO₃ positive electrode materials with high initial cycle efficiency by application of the carbothermal reduction method. Journal of power sources, vol.221, 427-434.

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27. Feng, X., Gao, Y., Ben, L., Yang, Z., Wang, Z., Chen, L.. Enhanced electrochemical performance of Ti-doped Li_1.2Mn_0.54Co_0.13Ni_0.13O₂ for lithium-ion batteries. Journal of power sources, vol.317, 74-80.

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28. Ahn, Juhyeon, Kim, Jong Hak, Cho, Byung Won, Chung, Kyung Yoon, Kim, Sangryun, Choi, Jang Wook, Oh, Si Hyoung. Nanoscale Zirconium-Abundant Surface Layers on Lithium- and Manganese-Rich Layered Oxides for High-Rate Lithium-Ion Batteries. Nano letters : a journal dedicated to nanoscience and nanotechnology, vol.17, no.12, 7869-7877.

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29. Pouillerie, C., Croguennec, L., Delmas, C.. The Li_xNi_1−yMg_yO₂ (y=0.05, 0.10) system: structural modifications observed upon cycling. Solid state ionics, vol.132, no.1, 15-29.

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30. Koyama, Yukinori, Arai, Hajime, Tanaka, Isao, Uchimoto, Yoshiharu, Ogumi, Zempachi. First principles study of dopant solubility and defect chemistry in LiCoO₂. Journal of materials chemistry. A, Materials for energy and sustainability, vol.2, no.29, 11235-11245.

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31. Kong, Fantai, Longo, Roberto C., Yeon, Dong-Hee, Yoon, Jaegu, Park, Jin-Hwan, Liang, Chaoping, KC, Santosh, Zheng, Yongping, Doo, Seok-Gwang, Cho, Kyeongjae. Multivalent Li-Site Doping of Mn Oxides for Li-Ion Batteries. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.119, no.38, 21904-21912.

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32. Shannon, R. D.. Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta crystallographica. Section A, Crystal physics, diffraction, theoretical and general crystallography, vol.32, no.5, 751-767.

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33. Li, Hang, Zhou, Pengfei, Liu, Fangming, Li, Haixia, Cheng, Fangyi, Chen, Jun. Stabilizing nickel-rich layered oxide cathodes by magnesium doping for rechargeable lithium-ion batteries. Chemical science, vol.10, no.5, 1374-1379.

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34. JEOL news Yasuhara A. 46 40 2005 

35. Ruch, P.W., Cericola, D., Hahn, M., Kotz, R., Wokaun, A.. On the use of activated carbon as a quasi-reference electrode in non-aqueous electrolyte solutions. Journal of electroanalytical chemistry, vol.636, no.1, 128-131.

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36. Rong, Ziqin, Malik, Rahul, Canepa, Pieremanuele, Sai Gautam, Gopalakrishnan, Liu, Miao, Jain, Anubhav, Persson, Kristin, Ceder, Gerbrand. Materials Design Rules for Multivalent Ion Mobility in Intercalation Structures. Chemistry of materials : a publication of the American Chemical Society, vol.27, no.17, 6016-6021.

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37. Kim, Hanseul, Choi, Aram, Doo, Sung Wook, Lim, Jungwoo, Kim, YoungJin, Lee, Kyu Tae. Role of Na⁺ in the Cation Disorder of [Li_1-xNa_x]NiO₂ as a Cathode for Lithium-Ion Batteries. Journal of the Electrochemical Society : JES, vol.165, no.2, A201-A205.

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