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11. Qu, Liangti, Liu, Yong, Baek, Jong-Beom, Dai, Liming. Nitrogen-Doped Graphene as Efficient Metal-Free Electrocatalyst for Oxygen Reduction in Fuel Cells. ACS nano, vol.4, no.3, 1321-1326.

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13. Paton, Keith R., Varrla, Eswaraiah, Backes, Claudia, Smith, Ronan J., Khan, Umar, O’Neill, Arlene, Boland, Conor, Lotya, Mustafa, Istrate, Oana M., King, Paul, Higgins, Tom, Barwich, Sebastian, May, Peter, Puczkarski, Pawel, Ahmed, Iftikhar, Moebius, Matthias, Pettersson, Henrik, Long, Edmund, Coelho, João, O’Brien, Sean E., McGuire, Eva K., Sanchez, Beatriz Mendoza, Duesberg, Georg S., McEvoy, Niall, Pennycook, Timothy J., Downing, Clive, Crossley, Alison, Nicolosi, Valeria, Coleman, Jonathan N.. Scalable production of large quantities of defect-free few-layer graphene by shear exfoliation in liquids. Nature materials, vol.13, no.6, 624-630.

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14. Wu, Zhiyi, Iqbal, Zafar, Wang, Xianqin. Metal-free, carbon-based catalysts for oxygen reduction reactions. Frontiers of chemical science and engineering, vol.9, no.3, 280-294.

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15. Geng, Dongsheng, Ding, Ning, Andy Hor, T. S., Liu, Zhaolin, Sun, Xueliang, Zong, Yun. Potential of metal-free “graphene alloy” as electrocatalysts for oxygen reduction reaction. Journal of materials chemistry. A, Materials for energy and sustainability, vol.3, no.5, 1795-1810.

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17. Ricca, Chiara, Labat, Frédéric, Zavala, Claudia, Russo, Nino, Adamo, Carlo, Merino, Gabriel, Sicilia, Emilia. B,N‐Codoped graphene as catalyst for the oxygen reduction reaction: Insights from periodic and cluster DFT calculations. Journal of computational chemistry, vol.39, no.11, 637-647.

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18. Hou, Zhufeng, Wang, Xianlong, Ikeda, Takashi, Terakura, Kiyoyuki, Oshima, Masaharu, Kakimoto, Masa-aki, Miyata, Seizo. Interplay between nitrogen dopants and native point defects in graphene. Physical review. B, Condensed matter and materials physics, vol.85, no.16, 165439-.

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19. Bayram, E., Yilmaz, G., Mukerjee, S.. A solution-based procedure for synthesis of nitrogen doped graphene as an efficient electrocatalyst for oxygen reduction reactions in acidic and alkaline electrolytes. Applied catalysis. B, Environmental, vol.192, 26-34.

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20. Bellafont, N.P., Maneru, D.R., Illas, F.. Identifying atomic sites in N-doped pristine and defective graphene from ab initio core level binding energies. Carbon, vol.76, 155-164.

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21. Schiros, Theanne, Nordlund, Dennis, Pálová, Lucia, Prezzi, Deborah, Zhao, Liuyan, Kim, Keun Soo, Wurstbauer, Ulrich, Gutiérrez, Christopher, Delongchamp, Dean, Jaye, Cherno, Fischer, Daniel, Ogasawara, Hirohito, Pettersson, Lars G. M., Reichman, David R., Kim, Philip, Hybertsen, Mark S., Pasupathy, Abhay N.. Connecting Dopant Bond Type with Electronic Structure in N-Doped Graphene. Nano letters : a journal dedicated to nanoscience and nanotechnology, vol.12, no.8, 4025-4031.

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22. Nanda, S.S., Kim, M.J., Yeom, K.S., An, S.S.A., Ju, H., Yi, D.K.. Raman spectrum of graphene with its versatile future perspectives. Trends in analytical chemistry : TrAC, vol.80, 125-131.

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23. Beams, Ryan, Gustavo Can？ado, Luiz, Novotny, Lukas. Raman characterization of defects and dopants in graphene. Journal of physics, an Institute of Physics journal. Condensed matter, vol.27, no.8, 083002-.

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24. Song, Yang, Peng, Rui, Hensley, Dale K., Bonnesen, Peter V., Liang, Liangbo, Wu, Zili, Meyer III, Harry M., Chi, Miaofang, Ma, Cheng, Sumpter, Bobby G., Rondinone, Adam J.. High‐Selectivity Electrochemical Conversion of CO₂ to Ethanol using a Copper Nanoparticle/N‐Doped Graphene Electrode. ChemistrySelect, vol.1, no.19, 6055-6061.

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25. Wei, Dacheng, Liu, Yunqi, Wang, Yu, Zhang, Hongliang, Huang, Liping, Yu, Gui. Synthesis of N-Doped Graphene by Chemical Vapor Deposition and Its Electrical Properties. Nano letters : a journal dedicated to nanoscience and nanotechnology, vol.9, no.5, 1752-1758.

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26. Cortés-Arriagada, Diego, Villegas-Escobar, Nery, Ortega, Daniela E.. Fe-doped graphene nanosheet as an adsorption platform of harmful gas molecules (CO, CO₂, SO₂ and H₂S), and the co-adsorption in O₂ environments. Applied surface science, vol.427, no.2, 227-236.

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27. Ghanbari, R., Safaiee, R., Golshan, M.M.. A dispersion-corrected DFT investigation of _{CH 4} adsorption by silver-decorated monolayer graphene in the presence of ambient oxygen molecules. Applied surface science, vol.457, 303-314.

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28. Yamamoto, Susumu, Takeuchi, Kaori, Hamamoto, Yuji, LiuPresent address: Institute of Physics, Academia Sinica, Nankang, Taipei 11529, Taiwan., Ro-Ya, Shiozawa, Yuichiro, KoitayaPresent address: Graduate School of Arts and Sciences, The University of Tokyo, 3-8-1, Komaba, Meguro-ku, Tokyo 153-8902, Japan.Present address: Japan Science and Technology Agency (JST), Precursory Research for Embryonic Science and Technology (PRESTO), 4-1-8 Honcho, Kawaguchi, Saitama 332-0012, Japan., Takanori, Someya, Takashi, Tashima, Keiichiro, Fukidome, Hirokazu, Mukai, Kozo, Yoshimoto, Shinya, Suemitsu, Maki, Morikawa, Yoshitada, Yoshinobu, Jun, Matsuda, Iwao. Enhancement of CO₂ adsorption on oxygen-functionalized epitaxial graphene surface under near-ambient conditions. Physical chemistry chemical physics : PCCP, vol.20, no.29, 19532-19538.

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29. Li, Qing, Zhu, Wenlei, Fu, Jiaju, Zhang, Hongyi, Wu, Gang, Sun, Shouheng. Controlled assembly of Cu nanoparticles on pyridinic-N rich graphene for electrochemical reduction of CO₂ to ethylene. Nano energy, vol.24, 1-9.

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30. Kumar, K. Vasanth, Preuss, Kathrin, Lu, Linghong, Guo, Zheng Xiao, Titirici, M. Magdalena. Effect of Nitrogen Doping on the CO₂ Adsorption Behavior in Nanoporous Carbon Structures: A Molecular Simulation Study. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.119, no.39, 22310-22321.

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