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Katarzyna Pietrzak, Wiesława Olesińska, Cezary Strąk, Robert Siedlec and Andrzej Gładki

LITERATURE CITED 1. Leenaerts, O., Partoens, B. & Peeters, F.M. (2008). Graphene: a perfect nanoballoon, Appl. Phys. Lett. 93, 193107. DOI: 10.1063/1.3021413. 2. Tsetseris, L. & Pantelides, S.T. (2013). Graphene: An impermeable or selectively permeable membrane for atomic species? Carbon Vol. 67, 58–63. DOI: 10.1016/j.carbon.2013.09.055. 3. Cuevas, J.C. (2010). Introduction to Density Functional Theory, https://www.uam.es/personal_pdi/ciencias/jcuevas/Talks/JC-Cuevas-DFT.pdf 4. Bunch, J.S., Verbridge, S.S., Alden, J.S., Arend, M. van

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M. Czerniak-Reczulska, A. Niedzielska and A. Jędrzejczak

References 1. Boehm H.P., Setton R., Stumpp E. Nomenclature and terminology of graphite intercalation compounds, Pure and Applied Chemistry 66 (1994), 1893-1901. 2. Centrum grafenu i innowacyjnych technologii; Biuletyn Politechniki Warszawskiej; 2014. 3. Scientific American nr 298, Carbon Wonderland, 2008, 90-97. 4. Science nr 324, Graphene: Status and prospects (2009), 1530-1534. 5. http://nobelprize.org/nobel_prizes/physics/laureates/2010/sciback_phy_10_2.pdf. 6

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S. Saqib Shams, Ruoyu Zhang and Jin Zhu

] KRISHNAMOORTHY K., KIM G.-S., KIM S.J., Ultrason. Sonochem., 20 (2013), 644. [13] EDWARDS R.S., COLEMAN K.S., Nanoscale, 5 (2013) 38. [14] WARNER J.H., SCHÄ FFEL F., BACHMATIUK A., RÜMMELI M.H., Graphene: Fundamentals and emergent applications, Elsevier, Oxford, 2012. [15] NOVOSELOV K.S., GEIM A.K., MOROZOV S., JIANG D., ZHANG Y., DUBONOS S., Science, 306 (2004), 666. [16] DATO A., RADMILOVIC V., LEE Z., PHILLIPS J., FRENKLACH M., Nano Lett., 8 (2008), 2012. [17] REINA A., JIA X., HO J., NEZICH D

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Grzegorz Cieślak and Maria Trzaska

.surfcoat.2010.08.054. 6. Khalil, M.W. et al. (2015). Electrodeposition of Ni-GNS-TiO 2 nanocomposite coatings as anticorrosion film for mild steel in neutral environment. Surf. & Coat. Technol. 275, 98–111. DOI: 10.1016/j.surfcoat.2015.05.033 7. Szeptycka, B., Gajewska-Midziałek, A. & Babul, T. (2016). Electrodeposition and corrosion resistance of Ni-graphene composite coatings. J. Mater. Engine. Perfor. 25, 3134–3138. DOI: 10.1007/s11665-016-2009-4. 8. Kumar, C.M.P. et al. (2013). Preparation and corrosion behavior of Ni and Ni–graphene composite coatings

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Petra Roupcová, Hana Kubátová, Karel Klouda and Petr Lepík

References AGHARKAR, M.; KOCHREKAR, S.; HIDOURI, S.; AZEEZ, M.A. (2014).: Trends in green reduction of graphene oxides, issues and challenges: a review. Material Research Bulletin (59). p. 323-328. AHMED, F.; RODRIGUES, D.F. (2013).: Investigation of acute effects of graphene oxide on wastewater microbial community: a case study. J Hazard Mater. p. 256-257:3-39. AL-MARRI, A.H.; KHAN, M.; KHAN, M.; ADIL, S.F.; AL-WARTHAN, A.; ALKHATHLAN, H.Z.; TREMEL, W.; LABIS, J.P.; SIDIQUI, M.R.H.; TAHIR, M.N. (2015).: Pulicaria glutinosa Extract: A

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Sandra Paszkiewicz, Iwona Pawelec, Anna Szymczyk and Zbigniew Rosłaniec

. Bull. 45(2), 191–198. DOI: 10.1007/s002890070048. 9. Ou, C.F., Ho, M.T. & Lin, J.R. (2004). Synthesis and characterization of poly(ethylene terephthalate) nanocomposites with rganoclay. J. Appl. Polymer Sci. 91(1), 140–145. DOI: 10.1002/app.13158. 10. Kim, H., Abdala, A.A. & Macosko, C.W. (2010). Graphene/polymer nanocomposites. Macromolecules 43(16), 6515–6530. DOI: 10.1021/ma100572e. 11. Slonczewski, J.C. & Weiss, P.R. (1958). Band structure of graphite. Phys. Rev. 109(2), 272. DOI: 10.1103/PhysRev.109.272. 12. Bunch, J.S., Verbridge

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Anna Gajewska-Midziałek

. Metal Finish 83(4), 181–187. DOI: org/10.1179/002029605X61658 10. Wan, X., Xu, Y., Guo, H., Shehzad, K., Ali, A., Liu, Y., Yang, J., Dai, D., Lin, C.-T., Liu, L., Cheng, H.-C., Wang, F., Wang, X., Lu, H., Hu, W., Pi, X., Dan, Y., Luo, J., Hasan, T., Duan, X., Li, X., Xu, J., Yang, D., Ren, T. & Yu, B. (2017). A self-powered high-performance graphene/silicon ultraviolet photodetector with ultra-shallow junction: breaking the limit of silicon? Nat. Part. J. 2D Mater Appl. 4, 1–8. DOI:10.1038/s41699-017-0008-4. 11. Xu, Y., Ali, A., Shehzad, K., Meng, N

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A. Dravniece, L. Gerca, K. Kundzins, K. Teivena, V. Kampars and M. Rutkis

References 1. Gengler, R.Y.N., Veligura, A., Enotiadis, A., Diamanti, E.K., Gournis, D., Jozsa, C., van Wees, B.J., & Rudolf, P. (2010). Large-yield preparation of high-electronic-quality graphene by a Langmuir-Schaefer approach. Small, (8), 35-9. 2. Wassei, J.K., & Kaner, R.B. (2010). Graphene, a promising transparent conductor.Mater. Today, 13, 52-9. 3. Shao, Y., Wang, J., Wu, H., Liu, J., Aksay, I.A., & Lin, Y. (2010). Graphene based electrochemical sensors and biosensors: a review. Electroanalysis, 22, 1027

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Petr Machac and Tomas Hrebicek

References [1] CHOI, W.-LAHIRI, I.-SEELABOYINA, R.-KANG, Y. S. : Synthesis of Graphene and its Applications: a Review, Cri. Rev. Solid State Mater. Sci. 35 No. 01 (2010), 52-71. [2] NOVOSELOV, K. S.-GEIM, A. K.-MOROZOV, S. V.-JIANG, D.-ZHANG, Y.-DUBONOS, S. V.-GRIGORIEVA, I. V.-FIRSOV, A. A. : Electric Field Effect in Atomically Thin Carbon Films, Science 306 No. 5696 (2004), 666-669. [3] SCHEDIN, F.-GEIM, A. K.-MOROZOV, S. V.-HILL, E. W.-BLAKE, P.-KATSNELSON, M. I.-NOVOSELOV, K. S. : Detection of Individual Gas

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T. Pustelny, S. Drewniak, M. Setkiewicz, E. Maciak, M. Urbańczyk, M. Procek, K. Gut, Z. Opilski, J. Jagiello and L. Lipinska

sensor for H2”, Nanoscale 3, 2458-2460 (2011). [4] B.H. Chu, J. Nicolosi, C.F. Lo, W. Strupiński, S.J. Pearton, and F. Ren, “Effect of coated platinum thickness on hydrogen detection sensitivity of graphene- based sensors”, Electrochemical and Solid-State Letters 14 (7), K43-K45 (2011). [5] Y. Zhu, S. Murali, W. Cai, X. Li, J.W. Suk, J.R. Potts, and R.S. Ruoff, “Graphene and grpgene oxide: synthesis, properties, and applications”, Adv. Mater . 22, 3906-3924 (2010). [6] C. Tyszkiewicz, P. Karasiński, and R. Rogoziński