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48. Nguyen, P.M.: ACS Omega 7 (2022) 47642.
49. Zhao, W.-H.: ACS Applied Electr. Mater. 4 (2022) 4903.
50. Herrero, C.P.: J. Phys. Chem. Solids 171 (2022) 110980.
51. Rashid, M.: Mater. Sci Semicond. Process. 151 (2022) 107007.
52. Fatima, K.: J. Chinese Chem. Soc 69 (2022) 1585.
53. Gao, Z.-Y.: Adv. Mater. 34 (2022) 2204779.
54. Zhang, L.: Front. Mater. 9 (2022) 956675.
55. Dindorkar, S.S.: Silicon 14 (2022) 11771.
56. Huang, L.: Vacuum 208 (2023) 111700.
57. Talla, J.A.: J. Comput. Electron. 22 (2023) 68.
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59. Nguyen, P.M.: ACS Omega 7 (2023) 47642.
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61. Tran, H.T.T.: ACS Omega 8 (2023) 25424.
62. Itas, Y.S.: Sci Technol. Adv. Mater. 24 (2023) 2271912.
63. Singh, A.: Phys. Rev. B 108 (2023) 235311.
64. Nguyen, H.V.: RSC Adv. 13 (2023) 32641.
65. Rafin, S.M.S.H.: Micromach. 14 (2023) 2045.
# 66. Phi, N.M.: Chemical Modifications of Graphene-Like Materials. World Sci 2023, pp. 465-481. ISBN: 978-981-12-6793-2
67. Islam, A.S.M.J.: Mater. Chem. Phys. 316 (2024) 129068.
68. Huang, L.Q.: Physica B 679 (2024) 415809.
69. Sharifi, J.A.: Japan. J. Applied Phys. 63 (2024) 055001.
70. Mohseni, M.: Phys. Rev. Mater. 8 (2024) 056201.
71. Da, Y.L.: Chinese Phys. B 33 (2024) 086802.
Pospisil, J., Schmiedova, V., Zmeskal, O., Vretenar, V., and Kotrusz, P.: Electrical properties of graphene oxide layers prepared by material inkjet printing, Key Engn. Mater. 674 (2016) 109-114. (Not IEE SAS).
1. Xu, J.: Cailiao Gongcheng-J. Mater. Engn. 46 (2018) 1.
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1. Prekodravac, J.: Synthetic Metals 209 (2015) 461.
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3. Zhang, L.: Electrochim. Acta 186 (2015) 522.
4. Vermisoglou, E. C.: Applied Surface Sci 392 (2015) 244.
5. Xu, X.: J. Alloys Compounds 654 (2016) 23.
6. Wan, M.M.: ACS Applied Mater. Interfaces 8 (2016) 1252.
7. Ren, J.: Inter. J. Electrochem. Sci 11 (2016) 2550.
8. Huang, G.: Electrochimica Acta 196 (2016) 450.
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12. Rasul, S.: Carbon 111 (2017) 774.
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14. Cossutta, M.: Green Chem. 19 (2017) 5874.
15. Kim, H.J.: Chem. Phys. Lett. 686 (2017) 49.
16. El-Gendy, D.M.: Sci Rep. 7 (2017) 43104.
17. Ma, W.: J. Mater. Sci 53 (2018) 12295.
18. Liu, D.: J. Colloid Interface Sci 513 (2018) 295.
19. Vignesh, V.: Colloids Surfaces A 538 (2018) 668.
20. Zhang, X.: Electrochim. Acta 259 (2018) 793.
21. Li, H.: Adv. Energy Mater. 9 (2019) 1900079.
22. Chang, Y.: J. Mater. Sci-Mater. Electron. 30 (2019) 7216.
23. Naik, S.: New J. Chem. 43 (2019) 16017.
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25. Ashraf, M.: Chem.-Europ. J. 27 (2021) 6973.
26. Prasad, A.K.: Applied Surface Sci 564 (2021) 150393.
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# 29. Zhu, S.: Templated Fabrication of Graphene-Based: Materials for Energy Applications. Wiley 2022, pp. 215. ISBN 978-35278-2208-9.
Meško, M., Vretenár, V., Kotrusz, P., Hulman, M., and Skákalová, V.: Synthesis of carbon nanowalls on macroporous nickel foam by atmospheric glow discharge chemical vapour deposition, Phys. Status Solidi B 251 (2014) 933–936. (Not IEE SAS)
1. Bo, Z.: Phys. Status Solidi B 252 (2015) 2236.
Skákalová, V., Vretenár, V., Kopera, L., Kotrusz, P., Mangler, C., Meško, M., Meyer, J.C., and Hulman, M.: Electronic transport in composites of graphite oxide with carbon nanotubes, Carbon 72 (2014) 224-232. (Not IEE SAS)
1. Han, Z.J.: NPG Asia Mater. 6 (2014) e140.
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3. Maarouf, A.A.: Carbon 102 (2016) 74.
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5. Al-Jumaili, A.: Materials 10 (2017) 1066.
6. Kharissova, O.V.: Industr. Engn. Chem. Res. 58 (2019) 3921.
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13. Ashraf, M.: Chem.-Europ. J. 27 (2021) 6973.
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1. Bo, Z.: Phys. Status Solidi B 251 (2014) 155.
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3. Mishin, M.V.: Russian J. General Chem. 85 (2015) 1209.
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11. Jasek, O.: Diamond Related Mater. 105 (2020) 107798.
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18. Nixon, E.J.: Food Chem. 409 (2023) 135324.
19. Meher, B.S.: J. Mater. Engn. Performance 32 (2023) 3755.
20. Minh, N.Q.: Vacuum 224 (2024) 113180.
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32. Loro, C.: J. Organic Chem. 88 (2023) 13995.
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38. Bahekar, S.P.: Chem.Select 2 (2017) 9326.
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43. Makso, L.: CHEMISTRYSELECT 7 (2022) e202200967.
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