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A. Kausar

/graphene nanocomposites with maleated polyethylene-octene rubber prepared by melt compounding. ACS Appl. Mater. Interface. 4 (2012) 4740-4745. 24. Yousef S., Visco A., Galtieri G., Nocita D., Espro C., Wear behaviour of UHMWPE reinforced by carbon nanofiller and paraffin oil for joint replacement. Mater. Sci. Engineer. C. 73 (2017) 234-244. 25. Kim J.Y., Song J.Y., Lee J.E., Park S.K., Rheological properties and microstructures of Carbopol gel network system. Colloid Polym. Sci. 281 (2003) 614-623. 26. Beck Tan N.C., Tai S.K,. Bribert R.M., Morphology

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E. E. Doğan, P. Tokcan and B. K. Kizilduman

REFERENCES 1. Barbir F., Hydrogen. International association for hydrogen energy. www.ihae.org . (2015). 2. Mormillan M., Veziroglu T.N., Current status of hydrogen energy. 6 (2002) 141-179. 3. Ramage J., Energy: A Guidebook. 1st ed. New York: Oxford University Press, 1983 4. Bouza A., Petrovic J., Read C., Satyapal S., Milliken J., The national hydrogen storage project. ACS Division of Fuel Chemistry. 49 2 (2004) 839. 5. Yang J., Sudik A., Wolverton C., Siegel D.J., High capacity hydrogen storage materials: attributes for

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A. Kausar

., Zheng, W.: Compressible graphene-coated polymer foams with ultralow density for adjustable electromagnetic interference (EMI) shielding. ACS Applied Materials & Interfaces 8 (2016) 8050-8057. 28. Kuang, T., Chang, L., Chen, F., Sheng, Y., Fu, D., Peng, X.: Facile preparation of lightweight high-strength biodegradable polymer/multi-walled carbon nanotubes nanocomposite foams for electromagnetic interference shielding. Carbon 105 (2016) 305-313. 29. Cai, Y., Wang, Q., Wei, Q., You, Q., Huang, F., Song, L., Hu, Y., Gao, W.: Structure, thermal, and

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A. Kausar

-dimensional porous membranes for CO 2 separation, A.C.S. Appl. Mater. Interface. 7 (2015) 13073-13079. 21. Kausar A.: Proton exchange fuel cell membranes of poly(benzimidazole-amide)/sulfonated polystyrene/titania nanoparticles-grafted-multi-walled carbon nanotubes, J. Plast. Film. Sheet. (2014) 8756087914526879. 22. Yampolskii Y.: Polymeric gas separation membranes, Macromolecules. 45 (2012) 3298-3311. 23. Aroon M.A., Ismail A.F., Matsuura T., Montazer-Rahmati M.M.: Performance studies of mixed matrix membranes for gas separation: a review, Separat. Purificat

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

), 195-295. 20. Hasan, T., Solution‐phase exfoliation of graphite for ultrafast photonics, Phys Status Solidi B. 247 (2010) 2953-2957. 21. Liao K.H., Mittal A., Bose S., Leighton C., Mkhoyan K.A., Macosko C.V., Aqueous only route toward graphene from graphite oxide, ACS Nano 5 (2011), 1253-1258. 22. Wang H. J., Robinson J., Li X., Dai., Solvothermal Reduction of Chemically Exfoliated Graphene Sheets, J. Am. Chem. Soc. 131 (2009), 9910-9911. 23. Hiura H., Lee M.V., Tyurnina A.V., Tsukagoshi K., Liquid phase

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B. Yilmaz, E. T. Irmak, Y. Turhan, S. Doğan, M. Doğan and O. Turhan

, J., Jakimov, D., Milic, N., Banjac, N., Uscumlic, G., Kaliszan, R. (2017) Evaluation of in silico pharmacokinetic properties and in vitro cytotoxic activity of selected newly synthesized n-succinimide derivatives. Journal of Pharmaceutical and Biomedical Analysis, 137, 252-257. 38. Chen, Y.P., Wu, S.H., Chen, I.C., Chen, C.T. (2017) Impacts of cross-linkers on biological effects of mesoporous silica nanoparticles. ACS Applied Materials and Interfaces,9,10254-10265. 39. Vega-Chacón, J., Arbeláez, M.I.A., Jorge, H.J., Marques, R.F.C., Jafelicci Jr, M

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Aseel A. Kareem

References [1] Watcharaphalakorn S., Ruangchuay L., Chotpattananont D., Sirivat A., Schwank J., Polym. Int., 54 (2005), 1126. [2] Wang N., Chen Y., Ren J., Huang X., Chen X., Li G., Liu D., J. Polym. Res., 24 (2017), 42. [3] Rezaei F., Tavandashti N.P., Zahedi A.R., Res. Chem. Intermed., 40 (3), 1233. [4] Cho S., Kim M., Lee J.S., Jang J., Acs Appl. Mater. Inter., 7 (40) (2015), 22301. [5] Ebrahim Sh.M., Soliman M.M., Abd El-Latif M.M., High. Perform. Polym., 22 (2010), 377

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Tomasz Kotwica, Jaroslaw Domaradzki, Damian Wojcieszak, Andrzej Sikora, Malgorzata Kot and Dieter Schmeisser

References [1] B havar V., K attire P., T hakare S., P atil S., S ingh R.K.P., Mater. Sci. Eng. B-Adv. , 229 (2017) 012021. [2] U dupa G., S hrikantha R ao S., G angadharan K.V., Procedia Mat. Sci. , 5 (2014), 1291. [3] C hmielewski M., P ietrzak K., B. Pol. Acad. Sci.-Tech. , 64(1) (2016), 151. [4] S ohn H., K im S., S hin W., L ee J.M., L ee H., Y un D.-J., M oon K.-S., H an I.T., K wak C., H wang S.-J., ACS Appl. Mater. Inter. , 10(3) (2018), 2688. [5] S afeen K., M icheli V., B artali R., G ottardi G

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E. M. Kamar and E. Sheha

. [6] LEVI E., LEVI M., CHASID O., AURBACH D., J. Electroceram., 22 (2009), 13. [7] HA S., LEE Y., WOO S., KOO B., KIM J., CHO J., LEE K., CHOI N., ACS Appl. Mater. Interfaces, 6 (2014), 4063. [8] GU Y., KATSURA Y., YOSHINO T., TAKAGI H., TANIGUCHI K., Sci. Rep., 5 (2015), 12486. [9] AURBACH D., SURESH G., LEVI E., MITELMAN E., MIZRAHI O., CHUSID O., BRUNELLI M., Adv. Mater., 19 (2007), 4260. [10] LI Y., YANG J., LI Y., WANG J., J. Chem. Commun., 46 (2010), 794. [11] TEPAVCEVIC S., XIONG

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Sun Chuanyu and Wang Yu

), 255. [8] MANJUNATHA R., SURESH G.S., MELO J.S., Sensor. Actuat. B-Chem., 145 (2) (2010), 643. [9] CHEN D., JI G., MA Y., ACS Appl. Mater. Inter., 3 (8) (2011), 3078. [10] YANG X.Y., ZHANG X.Y., MA Y.F., J. Mater. Chem., 19 (2009), 2710. [11] HUMMERS JR. S.W., OFFEMAN R.E., J. Am. Chem. Soc., 80 (1958), 1339. [12] LI D., MÜLLER M.B., GILJE S., Nat. Nanotechnol., 3 (2) (2008), 101. [13] BERTORELLE F., WILHELM C., ROGER J., Langmuir, 22 (12) 92006), 5385.