Characterization of X-ray irradiated graphene oxide coatings using X-ray diffraction, X-ray photoelectron spectroscopy, and atomic force microscopy

Thomas N. Blanton; Debasis Majumdar

doi:10.1017/S0885715613000109

Abstract

In an effort to study an alternative approach to make graphene from graphene oxide (GO), exposure of GO to high-energy X-ray radiation has been performed. X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and atomic force microscopy (AFM) have been used to characterize GO before and after irradiation. Results indicate that GO exposed to high-energy radiation is converted to an amorphous carbon phase that is conductive.

References

Blanton, T. N. and Majumdar, D. (2012). “X-ray diffraction characterization of polymer intercalated graphite oxide,” Powder Diffr. 27, 104–107.CrossRef Google Scholar

Cote, L. J., Cruz-Silva, R., and Huang, J. (2009). “Flash reduction and patterning of graphite oxide and its polymer composite,” J. Am. Chem. Soc. 131, 11027–11032.CrossRef Google Scholar PubMed

Dreyer, D. R., Park, S., Bielawski, C. W., and Ruoff, R. S. (2010). “The chemistry of graphene oxide,” Chem. Soc. Rev. 39, 228–240.CrossRef Google Scholar PubMed

Gilje, S., Han, S., Wang, M., Wang, K. L., and Kaner, R. B. (2007). “A chemical route to graphene for device applications,” Nano Lett. 7, 3394–3398.CrossRef Google Scholar PubMed

Gilje, S. S. (2010). “Reduction of graphene oxide to graphene in high boiling point solvents,” U.S. Patent Application 20100237296A1.Google Scholar

Wang, X., Zhi, L., and Mullen, K. (2008). “Transparent, conductive graphene electrodes for dye-sensitized solar cells,” Nano Lett. 8, 323–327.CrossRef Google Scholar PubMed

Yang, D., Velamakanni, A., Bozoklu, G., Park, S., Stoller, M., Piner, R. D., Stankovich, S., Jung, I., Field, D. A., Ventrice, C. A., and Ruoff, R. S. (2009). “Chemical analysis of graphene oxide films after heat and chemical treatments by X-ray photoelectron spectroscopy and micro-Raman spectroscopy,” Carbon 47, 145–152.CrossRef Google Scholar

Crossref Citations

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Jiang, Xuejiao Li, Zhao Yao, Jinrong Shao, Zhengzhong and Chen, Xin 2016. One-step synthesis of soy protein/graphene nanocomposites and their application in photothermal therapy. Materials Science and Engineering: C, Vol. 68, Issue. , p. 798.

Gupta, Vaishali Sharma, Neeraj Singh, Udai Arif, Mohd. and Singh, Arun 2017. Higher oxidation level in graphene oxide. Optik, Vol. 143, Issue. , p. 115.

Hayat, Muhammad Khyzer Shabbir, Saima Zubair, Muhammad and Husain, Syed Wilayat 2017. From carbon dioxide gas to nano-carbonaceous additive: An electrolytic route to nanomaterials. p. 1.

Farooq, Usman Danish, Muhammad Lu, Shuguang Brusseau, Mark L. Naqvi, Muhammmad Fu, Xiaro Zhang, Xiang Sui, Qian and Qiu, Zhaofu 2017. Efficient transformation in characteristics of cations supported-reduced graphene oxide nanocomposites for the destruction of trichloroethane. Applied Catalysis A: General, Vol. 544, Issue. , p. 10.

Rodriguez-Lamas, Raquel Masvidal-Codina, Eduard Pedreira, Gerard Saez, Adrian and Rius, Gemma 2017. Resistive switching behavior of graphene oxide films in symmetric metal-insulator-metal structures. p. 1.

Michau, A. Maury, F. Schuster, F. Boichot, R. Pons, M. and Monsifrot, E. 2017. Chromium carbide growth at low temperature by a highly efficient DLI-MOCVD process in effluent recycling mode. Surface and Coatings Technology, Vol. 332, Issue. , p. 96.

Imae, Ichiro Fujimoto, Daiki Zhang, Lu and Harima, Yutaka 2017. Electrosynthesis of a multilayer film stacked alternately by poly(3,4-ethylenedioxythiophene) and reduced graphene oxide from aqueous solution. Electrochemistry Communications, Vol. 81, Issue. , p. 65.

Gurzęda, B. Buchwald, T. Nocuń, M. Bąkowicz, A. and Krawczyk, P. 2017. Graphene material preparation through thermal treatment of graphite oxide electrochemically synthesized in aqueous sulfuric acid. RSC Advances, Vol. 7, Issue. 32, p. 19904.

Björnerbäck, Fredrik Bernin, Diana and Hedin, Niklas 2018. Microporous Humins Synthesized in Concentrated Sulfuric Acid Using 5-Hydroxymethyl Furfural. ACS Omega, Vol. 3, Issue. 8, p. 8537.

Gupta, Anju Jaikumar, Arvind Kandlikar, Satish G. Rishi, Aniket and Layman, Andrew 2018. A Multiscale Morphological Insight into Graphene Based Coatings for Pool Boiling Applications. Heat Transfer Engineering, Vol. 39, Issue. 15, p. 1331.

Mortazavi, Somayeh Mollabashi, Mahmoud Barri, Rasoul Jones, Kevin Xiao, John Q. Opila, Robert L. and Shah, S. Ismat 2018. Modification of graphene oxide film properties using KrF laser irradiation. RSC Advances, Vol. 8, Issue. 23, p. 12808.

Pounraj, Saranya Somu, Prathap and Paul, Subhankar 2018. Chitosan and graphene oxide hybrid nanocomposite film doped with silver nanoparticles efficiently prevents biofouling. Applied Surface Science, Vol. 452, Issue. , p. 487.

Benítez, Almudena Di Lecce, Daniele Elia, Giuseppe Antonio Caballero, Álvaro Morales, Julián and Hassoun, Jusef 2018. A Lithium‐Ion Battery using a 3 D‐Array Nanostructured Graphene–Sulfur Cathode and a Silicon Oxide‐Based Anode. ChemSusChem, Vol. 11, Issue. 9, p. 1512.

Rooyanian, S. Bagherzadeh, M. Akrami, Z. and Golikand, A. N. 2018. A simple route to surface functionalization of graphene nanosheets by benzoic acid and its application toward Pb(ii) sensing. New Journal of Chemistry, Vol. 42, Issue. 21, p. 17371.

Gurbani, Neeta Han, Chih-Pin Marumoto, Kazuhiro Liu, Ru-Shi Choudhary, Ram Janay and Chouhan, Neelu 2018. Biogenic Reduction of Graphene Oxide: An Efficient Superparamagnetic Material for Photocatalytic Hydrogen Production. ACS Applied Energy Materials, Vol. 1, Issue. 11, p. 5907.

Setiarso, Pirim and Hidayatulloh, Taufik 2019. Graphene Oxide-Paraffin as Working Electrode for Cyclic Voltammetry Analysis for Cadmium(II). Asian Journal of Chemistry, Vol. 31, Issue. 3, p. 575.

Gurzęda, Bartosz and Krawczyk, Piotr 2019. Electrochemical formation of graphite oxide from the mixture composed of sulfuric and nitric acids. Electrochimica Acta, Vol. 310, Issue. , p. 96.

Shokry, Azza Khalil, M. M. A. Ibrahim, Hesham Soliman, Moataz and Ebrahim, Shaker 2019. Highly Luminescent Ternary Nanocomposite of Polyaniline, Silver Nanoparticles and Graphene Oxide Quantum Dots. Scientific Reports, Vol. 9, Issue. 1,

Wan, Yizao Lin, Zhonghong Gan, Deqiang Cui, Teng Wan, Meirong Yao, Fanglian Zhang, Quanchao and Luo, Honglin 2019. Effect of Graphene Oxide Incorporation into Electrospun Cellulose Acetate Scaffolds on Breast Cancer Cell Culture. Fibers and Polymers, Vol. 20, Issue. 8, p. 1577.

Torrisi, L. Cutroneo, M. Havranek, V. Silipigni, L. Fazio, B. Fazio, M. Di Marco, G. Stassi, A. and Torrisi, A. 2019. Self-supporting graphene oxide films preparation and characterization methods. Vacuum, Vol. 160, Issue. , p. 1.

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Characterization of X-ray irradiated graphene oxide coatings using X-ray diffraction, X-ray photoelectron spectroscopy, and atomic force microscopy

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Article contents

Characterization of X-ray irradiated graphene oxide coatings using X-ray diffraction, X-ray photoelectron spectroscopy, and atomic force microscopy

Abstract

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