참고문헌 (40)

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2. Zhang, Feng, Qi, Limin. Recent Progress in Self‐Supported Metal Oxide Nanoarray Electrodes for Advanced Lithium‐Ion Batteries. Advanced science, vol.3, no.9, 1600049-.

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3. Ma, T.Y., Dai, S., Qiao, S.Z.. Self-supported electrocatalysts for advanced energy conversion processes. Materials today, vol.19, no.5, 265-273.

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4. Chen, L. Y., Guo, X. W., Han, J. H., Liu, P., Xu, X. D., Hirata, A., Chen, M. W.. Nanoporous metal/oxide hybrid materials for rechargeable lithium-oxygen batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.3, no.7, 3620-3626.

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5. Cao, Kangzhe, Jiao, Lifang, Liu, Huiqiao, Liu, Yongchang, Wang, Yijing, Guo, Zaiping, Yuan, Huatang. 3D Hierarchical Porous α‐Fe₂O₃ Nanosheets for High‐Performance Lithium‐Ion Batteries. Advanced energy materials, vol.5, no.4, 1401421-.

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6. Pham, Hien Thi Thu, Kim, Yeongsu, Kim, Young‐Jun, Lee, Jong‐Won, Park, Min‐Sik. Robust Design of Dual‐Phasic Carbon Cathode for Lithium–Oxygen Batteries. Advanced functional materials, vol.29, no.31, 1902915-.

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7. Jung, Kyu-Nam, Kim, Jeonghun, Yamauchi, Yusuke, Park, Min-Sik, Lee, Jong-Won, Kim, Jung Ho. Rechargeable lithium-air batteries: a perspective on the development of oxygen electrodes. Journal of materials chemistry. A, Materials for energy and sustainability, vol.4, no.37, 14050-14068.

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8. Seo, Seung‐Deok, Lee, Duk‐Hee, Shim, Hyun‐Woo, Lee, Sungjun, Kim, Dong‐Wan, Vyas, B.. Enhanced Cycle Stability of Magnetite/Carbon Nanoparticles for Li Ion Battery Electrodes. Journal of the American Ceramic Society, vol.97, no.5, 1413-1420.

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9. Kwak, Won-Jin, Kang, Tae-Geun, Sun, Yang-Kook, Lee, Yun Jung. Iron-cobalt bimetal decorated carbon nanotubes as cost-effective cathode catalysts for Li-O₂batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.4, no.18, 7020-7026.

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10. Jee, Sang-Won, Choi, Woongchul, Ahn, Cheol Hyoun, Yang, Gang, Cho, Hyung Koun, Lee, Jung-Ho, Yu, Choongho. Enhanced oxygen reduction and evolution by in situ decoration of hematite nanoparticles on carbon nanotube cathodes for high-capacity nonaqueous lithium-oxygen batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.3, no.26, 13767-13775.

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11. Kwak, Kyung-Hwan, Kim, Dong Wook, Kang, Yongku, Suk, Jungdon. Hierarchical Ru- and RuO₂-foams as high performance electrocatalysts for rechargeable lithium-oxygen batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.4, no.42, 16356-16367.

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12. Cheng, Hui, Chen, Jun-Min, Li, Qi-Jia, Su, Chang-Yuan, Chen, An-Na, Zhang, Jia-Xuan, Liu, Zhao-Qing, Tong, Yexiang. A modified molecular framework derived highly efficient Mn-Co-carbon cathode for a flexible Zn-air battery. Chemical communications : Chem comm, vol.53, no.84, 11596-11599.

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13. Wang, Zhong-Li, Xu, Dan, Xu, Ji-Jing, Zhang, Xin-Bo. Oxygen electrocatalysts in metal–air batteries: from aqueous to nonaqueous electrolytes. Chemical Society reviews, vol.43, no.22, 7746-7786.

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14. Cheng, Fangyi, Chen, Jun. Metal–air batteries: from oxygen reduction electrochemistry to cathode catalysts. Chemical Society reviews, vol.41, no.6, 2172-2192.

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15. Sadighi, Zoya, Huang, Jiaqiang, Qin, Lei, Yao, Shanshan, Cui, Jiang, Kim, Jang-Kyo. Positive role of oxygen vacancy in electrochemical performance of CoMn₂O₄ cathodes for Li-O₂ batteries. Journal of power sources, vol.365, 134-147.

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16. 2019 10.1149/2.1251910jes 166 B845 0013-4651 J. Electrochem. Soc. Rebekah A. 

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17. Du, Jing, Chen, Chengcheng, Cheng, Fangyi, Chen, Jun. Rapid Synthesis and Efficient Electrocatalytic Oxygen Reduction/Evolution Reaction of CoMn₂O₄ Nanodots Supported on Graphene. Inorganic chemistry, vol.54, no.11, 5467-5474.

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18. Li, Shuling, Xu, Jin, Ma, Zhong, Zhang, Shiming, Wen, Xiufang, Yu, Xuebin, Yang, Jun, Ma, Zi-Feng, Yuan, Xianxia. NiMn₂O₄ as an efficient cathode catalyst for rechargeable lithium-air batteries. Chemical communications : Chem comm, vol.53, no.58, 8164-8167.

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19. McCloskey, B. D., Bethune, D. S., Shelby, R. M., Girishkumar, G., Luntz, A. C.. Solvents’ Critical Role in Nonaqueous Lithium–Oxygen Battery Electrochemistry. The journal of physical chemistry letters, vol.2, no.10, 1161-1166.

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20. 1996 10.1149/1.1836378 143 1 0013-4651 J. Electrochem. Soc. Abraham K. M. 

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21. Black, Robert, Oh, Si Hyoung, Lee, Jin-Hyon, Yim, Taeeun, Adams, Brian, Nazar, Linda F.. Screening for SuperoxideReactivity in Li-O₂ Batteries: Effect on Li₂O₂/LiOH Crystallization. Journal of the American Chemical Society, vol.134, no.6, 2902-2905.

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22. Younesi, Reza, Hahlin, Maria, Björefors, Fredrik, Johansson, Patrik, Edström, Kristina. Li–O₂ Battery Degradation by Lithium Peroxide (Li₂O₂): A Model Study. Chemistry of materials : a publication of the American Chemical Society, vol.25, no.1, 77-84.

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23. 1994 86 Larson A. C. 

24. Kim, Jin Kyu, Ju, Ji Young, Choi, Seul Ki, Unithrattil, Sanjith, Lee, Sun Sook, Kang, Yongku, Kim, Yongseon, Im, Won Bin, Choi, Sungho. In-situ preparation and unique electrochemical behavior of pore-embedding CoO/Co₃O₄ intermixed composite for Li⁺ rechargeable battery electrodes. Journal of power sources, vol.378, 562-570.

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25. Zhao, Wenkai, Zhong, Qin, Ding, Jie, Deng, Zhiyong, Guo, Lina, Song, Fujiao. Enhanced catalytic ozonation over reduced spinel CoMn₂O₄ for NO_x removal: active site and mechanism analysis. RSC advances, vol.6, no.116, 115213-115221.

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26. Huang, Xiubing, Liu, Liping, Gao, Hongyi, Dong, Wenjun, Yang, Mu, Wang, Ge. Hierarchically nanostructured MnCo₂O₄ as active catalysts for the synthesis of N-benzylideneaniline from benzyl alcohol and aniline. Green chemistry : an international journal and green chemistry resource : GC, vol.19, no.3, 769-777.

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27. Li, Jingfa, Xiong, Shenglin, Li, Xiaowei, Qian, Yitai. A facile route to synthesize multiporous MnCo2O4 and CoMn2O4 spinel quasi-hollow spheres with improved lithium storage properties. Nanoscale, vol.5, no.5, 2045-.

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28. Kim, Buyoung, Lee, Heesoo. Valence state and ionic conduction in Mn‐doped MgO partially stabilized zirconia. Journal of the American Ceramic Society, vol.101, no.4, 1790-1795.

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29. Luo, Yazi, Chen, Changmiao, Chen, Libao, Zhang, Ming, Wang, Taihong. 3D reticular pomegranate-like CoMn₂O₄/C for ultrahigh rate lithium-ion storage with re-oxidation of manganese. Electrochimica acta, vol.241, 244-251.

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30. Zhou, Jun, Cheng, Shuang, Jiang, Yu, Zheng, Fenghua, Ou, Xing, Yang, Lufeng, Wang, Mengkun, Yao, Minghai, Liu, Meilin. Fabrication of TiO₂ coated porous CoMn₂O₄ submicrospheres for advanced lithium-ion anodes. RSC advances, vol.7, no.34, 21214-21220.

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31. Alkhalaf, Sara, Ranaweera, C.K., Kahol, P.K., Siam, K., Adhikari, H., Mishra, S.R., Perez, Felio, Gupta, Bipin Kumar, Ramasamy, K., Gupta, Ram K.. Electrochemical energy storage performance of electrospun CoMn₂O₄ nanofibers. Journal of alloys and compounds, vol.692, 59-66.

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32. Cai, Daoping, Qu, Baihua, Li, Qiuhong, Zhan, Hongbing, Wang, Taihong. Reduced graphene oxide uniformly anchored with ultrafine CoMn₂O₄ nanoparticles as advance anode materials for lithium and sodium storage. Journal of alloys and compounds, vol.716, 30-36.

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33. Shao, Jie, Wan, Zhongming, Liu, Hongmei, Zheng, Huiyuan, Gao, Tian, Shen, Ming, Qu, Qunting, Zheng, Honghe. Metal organic frameworks-derived Co₃O₄ hollow dodecahedrons with controllable interiors as outstanding anodes for Li storage. Journal of materials chemistry. A, Materials for energy and sustainability, vol.2, no.31, 12194-12200.

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34. Li, Li, Zhang, Zichao, Ren, Sijia, Zhang, Bingke, Yang, Shuhua, Cao, Bingqiang. Construction of hollow Co₃O₄ cubes as a high-performance anode for lithium ion batteries. New journal of chemistry = Nouveau journal de chimie, vol.41, no.16, 7960-7965.

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35. Shin, Haeun, Lee, Wan-Jin. Multi-shelled MgCo₂O₄ hollow microspheres as anodes for lithium ion batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.4, no.31, 12263-12272.

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36. Zhao, Guangyu, Xu, Zhanming, Sun, Kening. Hierarchical porous Co3O4 films as cathode catalysts of rechargeable Li-O2 batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.1, no.41, 12862-.

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37. Guo, Kun, Li, Yuan, Yang, Juan, Zou, Zhiqing, Xue, Xinzhong, Li, Xuemei, Yang, Hui. Nanosized Mn-Ru binary oxides as effective bifunctional cathode electrocatalysts for rechargeable Li-O₂batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.2, no.5, 1509-1514.

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38. Zhang, Jian, Wang, Liangjun, Xu, Leilei, Ge, Xiaoming, Zhao, Xiao, Lai, Min, Liu, Zhaolin, Chen, Wei. Porous cobalt-manganese oxide nanocubes derived from metal organic frameworks as a cathode catalyst for rechargeable Li-O₂ batteries. Nanoscale, vol.7, no.2, 720-726.

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39. Liu, Chueh, Li, Changling, Ahmed, Kazi, Wang, Wei, Lee, Ilkeun, Zaera, Francisco, Ozkan, Cengiz S., Ozkan, Mihrimah. High energy and power density Li-O₂ battery cathodes based on amorphous RuO₂ loaded carbon free and binderless nickel nanofoam architectures. RSC advances, vol.6, no.85, 81712-81718.

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40. Kang, Jungwon, Kim, Do Youb, Suk, Jungdon, Lee, Sun Sook, Kim, Dong Wook, Kim, Jaekook, Kang, Yongku. Enhanced energy and O₂evolution efficiency using an in situ electrochemically N-doped carbon electrode in non-aqueous Li-O₂batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.3, no.37, 18843-18846.

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