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Nitrogen Adsorption on Graphene Sponges Synthesized by Annealing a Mixture of Nickel and Carbon Powders

, 128–152. 5. Wu, R., Yu, B., Liu, X., Li, H., Wang, W., Chen, L., … Yang, S.T. (2016). One-pot hydrothermal preparation of graphene sponge for the removal of oils and organic solvents. Appl. Surf. Sci., 362 , 56–63. 6. Novoselov, K.S., Geim, A.K., Morozov, S.V., Jiang, D., Zhang, Y, Dubonos, S.V., Firsov, A.A. (2004). Electric field effect in atomically thin carbon films. Science , 306 , 666–669. 7. Sun, H., Zhen Xu Z., & Gao, Ch. (2013). Multifunctional, ultra-flyweight, synergistically assembled carbon aerogels. Advanced Materials, 25 , 2554

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Synthesis of Graphenic Carbon Materials on Nickel Particles with Controlled Quantity of Carbon

REFERENCES 1. Novoselov, K.S., Geim, A.K., Morozov, S.V., Jiang, D., Zhang, Y., Dubonos, S.V., et al. (2004). Electric field effect in aAtomically thin carbon films. Sci 2004 :306, 666–9. 2. Batzill, M. (2012). The surface science of graphene: Metal interfaces, CVD synthesis, nanoribbons, chemical modifications, and defects. Surface Science Reports 2012 : 67, 83–33. 3. Singh, V., Joung, D., Zhai, L., Das, S., Khondaker, S.I., and Seal, S. (2011). Graphene based materials: Past, present and future. Progress in Materials Sci 2011 :56, 1178

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In Vivo Investigation of Soft Tissue Response of Novel Silver/Poly(Vinyl Alcohol)/ Graphene and Silver/Poly(Vinyl Alcohol)/Chitosan/Graphene Hydrogels Aimed for Medical Applications – The First Experience

bilayer chitosan wound dressing with sustainable antibiotic delivery. J Biomed Mater Res 2002, 59:438-449. 16. Mi FL, Shyu SS, Wu YB, Lee ST, Shyong JY, Huang RN. Fabrication and characterization of a sponge-like asymmetric chitosan membrane as a wound dressing. Biomaterials 2001, 22:165-173. 17. Lu S, Gao W, Gu HY: Construction, application and biosafety of silver nanocrystalline chitosan wound dressing. Burns 2008, 34:623-628. 18. Madihally SV, Matthew HWT: Porous chitosan scaffolds for tissue engineering. Biomaterials

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Structure and Properties of Polyacrylonitrile/Polystyrene and Carbon Nanoparticle-Based Nanocomposite Foams

. Advances in Materials Science 17(2017) 24-36 32. Rettenbacher, A.S., Perpall, M.W., Echegoyen, L., Hudson, J., Smith, D.W.: Radical addition of a conjugated polymer to multilayer fullerenes (carbon nano-onions). Chemistry of Materials 19 (2007) 1411-1417. 33. Zhao, J., Ren, W., Cheng, H.M.: Graphene sponge for efficient and repeatable adsorption and desorption of water contaminations. Journal of Materials Chemistry 22 (2012) 20197-20202. 34. Landowski, M., Budzik, M., Imielińska, K.: Water absorption and blistering of glass fibre-reinforced polymer

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Optimization and Evaluation of Alkali-Pretreated Paeonia Ostii Seed Coats as Adsorbent for the Removal of Mb From Aqueous Solution

and sulfonic groups. J. Chem. Eng. 217, 354-362. DOI: 10.1016/j.cej.2012.12.001. 22. K umari, S., Chauhan, G.S. & Ahn, J.H. (2016). Novel cellulose nanowhiskers-based polyurethane foam for rapid and persistent removal of methylene blue from its aqueous solutions. J. Chem. Eng. 304, 728-736. DOI: 10.1016/j.cej.2016.07.008. 23. D ai, H., Huang, Y. & Huang, H. (2018). Eco-friendly polyvinyl alcohol/carboxymethyl cellulose hydrogels reinforced with graphene oxide and bentonite for enhanced adsorption of methylene blue. J. Carbohydr. Polym

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